ライフサイエンスコーパス: weave

1 plate creates a nanoscale version of the box weave.

2 tact within the rearrangement of loose fibre weaves.

3 ies more reliant on food crops, pottery, and weaving.

4 ties that did not use ceramics or loom-based weaving.

5 ibility and adhesion for required high-speed weaving.

6 A supramolecular two-dimensional kagome weave(15) and a single-layer, surface-supported, interwo

7 Previous nanoscale weaves(2-16) include isotropic crystalline covalent orga

8 an be used to weave ligand strands to form a woven 3 x 3 molecular grid.

9 se in irregular, tortuous patterning as they weave a course towards the pial surface.

10 Every conversation weaves a unique shared narrative from the contributions

11 of knowledge networks constructed by readers weaving a thread through articles in Wikipedia, we repli

12 s of human performance are well explained by Woven: a new model that incorporates physics-based simul

13 tion Workshop discussed the Ariadne's thread woven about intracellular signaling pathways.

14 6 had temporary closure with polyglactin 910 woven absorbable mesh.

15 res, running either along the fibril axis or weaving across the primary fibril orientation.

16 rm a tapestry of events, people, and places, woven across the decades of our lives.

17 Here, we used three-dimensional weaving, additive manufacturing, and autologous mesenchy

18 l tissue fabric, as well as multidimensional weaving algorithms, macroscopic tissue prototypes are cr

19 er Notkins are the fabric of the tale I will weave and were pivotal in the establishment of viral pat

20 f the matrix (perimysial coils, pericellular weaves and struts), which were often arranged in disorga

21 chosen to assess the biological potential of woven and aligned electrospun fibres to induce a reparat

22 Both woven and discontinuous carbon fiber have been considere

23 tendon by means of biophysical cues using a woven and electrospun patch.

24 investigated endogenous tissue response to a woven and electrospun polydioxanone (PDO) and polycaprol

25 exploit the unique capabilities of different woven and knit textiles, including zero initial stiffnes

26 ifferentially expressed between formation of woven and lamellar bone 1 hr after loading, while 5883 a

27 distinguish the molecular responses between woven and lamellar bone formation induced through mechan

28 the early differences in expression between woven and lamellar bone formation.

29 Formation of woven and lamellar bone in the adult skeleton can be ind

30 nted with hBMP/NCP revealed a combination of woven and lamellar bone with bone scores of 3.

31 kets implanted with hBMP/NCP contained vital woven and lamellar bone.

32 les from the surrounding, intimately-apposed woven and lamellar bone.

33 hich our tissue fabrics and their fibers are woven and spun.

34 ate the utility of this fiber, it is machine-woven and used as filament for 3D printing.

35 y and prepare champions, (4) promote network weaving, and (5) develop resource-sharing agreements.

36 floss products: three traditional (unwaxed, woven, and shred-resistant) and one powered flosser.

37 with the three traditional flosses, unwaxed, woven, and shred-resistant, respectively; and 0.252 for

38 CL), resulting in scaffolds with porous nano-woven architecture suitable for tissue ingrowth.

39 r bending or stretching robustness, and were woven as a textile logical computing module to distingui

40 cal organic threads, designed to be mutually weaving at regular intervals, has been synthesized by im

41 al silos, multilayer polyethylene and common woven bags, and maize meal packaged in single and multil

42 elop more complex channel geometries via the weaving-based approach.

43 flow devices, using a scalable, single-step, weaving-based manufacturing approach.

44 s life, and recognizing the deep connections woven between their patients and themselves.

45 ng constructed to build specialty chemicals, weave biomaterials, and to deliver therapeutics.

46 in a single bout to induce the formation of woven bone (WBF loading) or lamellar bone (LBF loading).

47 y of calcified tissue sections revealed both woven bone and areas of organized lamellar bone.

48 The woven bone and immature marrow formed in the radiated de

49 mRNA expression, and persistent presence of woven bone and increased bone marrow in healing sockets.

50 rowth rates, as indicated by the presence of woven bone during middle and (sometimes) late ontogeny.(

51 d osteoclastic resorption accompanied by new woven bone formation during chronic infection.

52 Remarkably, woven bone formation induced by high-force loading was b

53 response occurs, which results in a reactive woven bone formation that is less mineralized and weaker

54 hat distinct pathways are activated only for woven bone formation.

55 ngiogenic and osteogenic gene expression for woven bone formation.

56 imal lamellar formation and is essential for woven bone formation.

57 reduction in the amount of new intramedullar woven bone formed at the injured site, reduced number of

58 A 2-fold increase in new woven bone formed in the calvaria at sites of previous b

59 rrow spaces, and remodeling of osteopetrotic woven bone in the shafts of long bones into histological

60 predominantly an intramembraneous path, with woven bone matrix subsequently maturing into fully miner

61 distal femur revealed extensive formation of woven bone on the periosteal surfaces of the medial, lat

62 ells positioned adjacent to the newly formed woven bone remained viable and expressed high levels of

63 ociated with a 77.5% to 133% increase in new woven bone thickness compared to control devices without

64 Although a minimal thickness of woven bone was formed directly under the device (up to 3

65 Within gelatin, woven bone was observed sporadically and only after cult

66 athy, is characterized by rapidly remodeling woven bone, osteopenia, fractures, and progressive skele

67 or-associated stromal cells and newly formed woven bone, which together form sclerotic lesions that c

68 ent of normal lamellar bone with an abnormal woven bone-like matrix of highly disorganized collagen f

69 Woven bone-like tissue was found within lesions, on reso

70 s accelerated, resulting in the formation of woven bone.

71 normal bone architecture and accumulation of woven bone.

72 ual graft particles surrounded intimately by woven bone.

73 hways that were differentially regulated for woven, but not lamellar bone formation.

74 e in traditional non-farm activities such as weaving by using renewable materials with reduced ecolog

75 Carbon cloth (CC) woven by carbon fibers (CFs) is typically used as electr

76 The novel device configuration woven by solid electrolyte-coated threads shows excellen

77 that the same principles used in macroscopic weaving can be applied on the nanoscale to create two-di

78 Moreover, weaving can produce sufficiently large membranes (4800 c

79 ysical entanglement of organic crystals, the weaving circumvents the natural limitation of the small

80 Cotton gauze is a woven cloth which is used for wound dressing and wound c

81 interpenetrating networks, reminiscent of a woven cloth.

82 tes by adding small amounts (~1 weight %) of woven COF nanocrystals.

83 flosser combination was greater than for the woven combination and shred-resistant combination (both

84 un component of the patch but not within the woven component.

85 3D orthogonal woven composites are receiving increasing attention with

86 effects of pulse current and impact force on woven composites.

87 feature a mechanically robust core for tight weaving, coupled with a CO(2)-responsive shell that allo

88 n (FDA) for the transfemoral implantation of woven Dacron grafts for abdominal aortic aneurysms.

89 of lateral position (SDLP; a measure of lane weaving) during 100 km, on-road driving tests that comme

90 results showed TEA-soy protein had relative weaving efficiency 3% and 10% higher than PVA and chemic

91 n polyester/cotton fabrics, and had relative weaving efficiency similar to PVA on polyester fabrics,

92 Background The Woven EndoBridge (WEB) device was explicitly designed fo

93 Intrasaccular flow disruption with the Woven Endobridge (WEB) has become a well-established end

94 m geometry, hence, novel devices such as the Woven Endobridge (WEB) have been developed.

95 The Woven EndoBridge (WEB) is a well-established device for

96 observed following the off-label use of the Woven EndoBridge, or WEB, device for treatment of sidewa

97 We propose a 'weaving' evolution mechanism, by systematically investig

98 ures that failed to rotate were defective in weaving exogenous laminin matrix.

99 Here, a 3D honeycomb-structured woven fabric triboelectric nanogenerator (F-TENG) based

100 her, these neural findings explain how dmPPC weaves fabrics of ongoing experiences together in real t

101 3D-woven fabrics can be architected to form complex and nea

102 tential applications of these fibers include woven fabrics for radiation barriers, spectral authentic

103 Embedding the complex in electrospun non-woven fabrics yields a highly fluorescent fleece possess

104 tions for flexible and wearable electronics, woven fabrics, and wires.

105 es from acrylate monomers in the presence of woven fabrics, which generates soft composites with a st

106 The crossing points in the weave feature pi-stacking of the bridging linker.

107 Here, we show convergence between pseudo-orb-weaving Fecenia and true orb spiders.

108 ic devices with textiles, and we expect that woven-fibre materials will shape the next generation of

109 Fabrics-materials consisting of layers of woven fibres-are some of the most important materials in

110 d Cattleheart, Parides sesostris, develop as woven fibrillar structures, in contrast to the commonly

111 sional fiber patterns of natural soft tissue weaves for rapid prototyping of advanced functional mate

112 polymer strands to closely interact with the woven framework is highlighted as the main parameter to

113 Application demonstrations on the woven freestanding spatial structures with on-demand wea

114 Complex fabrics can be easily woven from fibers that respond to different external sti

115 travenous lines, and avoid cotton towels and woven gauze in basins and on the angiography table altog

116 Cotton towels and woven gauze placed in rinsed basins resulted in a signif

117 h, from a large plastic bowl with a stack of woven gauze, and from a large plastic bowl with a large

118 By 3D printing a mendable thermoplastic onto woven glass/carbon fiber reinforcement and co-laminating

119 Connections between slowly precipitating pre-woven grids, followed by the removal of the ion template

120 Throughout the article, we weave in examples from cardiovascular care when possible

121 The fibrillar collagen weave in MHCmTNF mice with concentric hypertrophy was ch

122 agen content, whereas the fibrillar collagen weave in the MHCsTNF2 mice with LV dilation was characte

123 ng blocks into linear organic polymer chains woven in two dimensions has been proposed on a number of

124 Here, we weave Indigenous Knowledge together with a multicentury

125 lectric fibers are mechanically strong to be woven into a commercial textile for textile based sensor

126 are built as fibers or interlaced nodes and woven into a deformable textile integrated circuit.

127 Moreover, these ribbons are successfully woven into a fabric form.

128 th a regular structure with the connectors 1 woven into a hexagonal network by RR'S-->Hg(2)(2+)<--SRR

129 gen atoms and a chain of 44 carbon atoms are woven into a polycyclic macromolecule that includes 10 r

130 o its bacterial peptidoglycan (PG), the coat woven into bacterial cell wall.

131 kely managed and sometimes "farmed," and are woven into broader cultural, ritual, and social traditio

132 that the vcf2fhir utility can be effectively woven into clinically useful genomic-EHR integration pip

133 fur, and metallic electron growth are nicely woven into each other.

134 tric fibers are presented here, which can be woven into extended and flexible ultrasound transducing

135 ical properties and can be bent, knotted, or woven into flexible electronic textiles.

136 otodetecting fibres drawn from a preform are woven into light-weight, low-optical-density, two- and t

137 otube fibers wrapped with acrylic fibers are woven into pai-type thermoelectric modules.

138 alt is a biological imperative, inextricably woven into physiological systems, human societies and gl

139 om electrospun biodegradable polymeric yarns woven into suturable nanotextiles.

140 Our biscrolled yarn biofuel cells are woven into textiles having the mechanical robustness nee

141 nel consensus are appropriately weighted and woven into the context of clinical practice guidelines.

142 osystems can be rehabilitated, expanded, and woven into the cultural fabric of human societies.

143 Linguistic metaphors have been woven into the fabric of molecular biology since its inc

144 ion of anthranilate metabolism is intimately woven into the quorum-sensing network of P. aeruginosa.

145 intrinsic M1 connections, which appear to be woven into the somatotopic organization of the forelimb

146 en the degree to which special relativity is woven into the theoretical fabric of modern physics and

147 tiles, proving active thermoelectrics can be woven into various fabric architectures for sensing, ene

148 Fabric weaving is a mature, scalable manufacturing technology a

149 rt that Zn(II) or Fe(II) ions can be used to weave ligand strands to form a woven 3 x 3 molecular gri

150 apex of this region contains an intricately woven loop-loop interaction between two conserved motifs

151 m surface-patterned fibers using convetional weaving machinery.

152 Here we report evidence of a plain-woven mat from the Tianluoshan site, Zhejiang, Eastern C

153 se made of woven polyester and other tightly woven material erode 15 times more often than autologous

154 The layered two-dimensional molecularly woven material has long-range order, is birefringent, is

155 fibers, the fundamental building blocks for weaving membranes, that feature a mechanically robust co

156 lity relative to polyglycolic acid (PGA) non-woven mesh controls.

157 issue scaffold was composed of a polyglactin woven mesh sandwiched between two nonwoven polyglycolic

158 as and electrolyte: oxygen flows through the woven mesh while the electrolyte diffuses along the text

159 nge, non-woven mesh, and composite woven/non-woven mesh); and two culture systems (CS) (a bioreactor

160 three scaffold structures (SS) (sponge, non-woven mesh, and composite woven/non-woven mesh); and two

161 othesized that poly-L-lactic acid (PLLA) non-woven meshes would limit contraction, allow for comprehe

162 or stiff hydrogels, electrospun fibers, non-woven meshes, macroporous and fibrillar sponges, flexibl

163 biomedical and theranostic application via a weaving method.

164 these scaling limitations by employing inter-woven microscale conductors within a hydrophobic expande

165 at by using an anion and metal ion template, woven molecular 'tiles' can be tessellated into a materi

166 ic fabrics continue to encourage chemists to weave molecules into interlaced patterns with the aim of

167 I weave my personal experiences with my analytical approac

168 hich combines the use of nanotechnology (non-woven nanofibre mat) with Solid Surface-Room Temperature

169 nce and minimizes problematic untwist during weaving nanotube yarns.

170 ratio to prepare an array of centimeter-size woven network structures.

171 transcription regulators that form a tightly woven network with approximately 1,000 target genes.

172 (SS) (sponge, non-woven mesh, and composite woven/non-woven mesh); and two culture systems (CS) (a b

173 t the ground surface and add strength with a weave of roots.

174 bodies together, a process analogous to the weaving of a waterproof fabric.

175 ystems can be explained by the interplay and weaving of individual actions.

176 The weaving of molecular strands within a discrete layer by

177 oly(vinyl alcohol)(PVA) sizes for high-speed weaving of polyester and polyester/cotton yarns to subst

178 throughout the material, without undoing the weaving of the overall structure.

179 four double-helical layers; we use a central weaving oligonucleotide containing a sequence of four si

180 2D) nanosheet framework that is derived from weaving one-dimensional (1D) nanowires.

181 two wireless communication schemes involving woven optical links and seam-inserted radio-frequency co

182 in electroluminescent threads, suitable for weaving or knitting, have opened doors for the developme

183 However, woven or ordered mask fabrics in two layers with differe

184 semble complex structures such as braids and weaves out of microscopic filaments.

185 ere, we make the valid thermoelectric fabric woven out of thermoelectric fibers producing an unobtrus

186 Both exhibit highly vascularized woven-parallel complexes, with fibrolamellar complexes d

187 as templates for bringing the threads into a woven pattern rather than the more commonly observed par

188 , within a single lattice, different density weave patterns can be used to address specific load requ

189 ing rigid, discrete elements in programmable weave patterns.

190 eestanding spatial structures with on-demand weaving patterns and orders have been conducted to show

191 emble to form structures with diverse strand weaving patterns and specific geometric properties, such

192 over the years with respect to iconography, weaving patterns, dyes/mordant, style, and even radiocar

193 motor demands: (i) the weaving task involves weaving pieces of fabric from woollen strings, using a m

194 ispherical scaffolds were fabricated from 3D woven poly(epsilon-caprolactone) (PCL) fibers into two d

195 growth factor beta3 (TGF-beta3), using a 3D woven poly(epsilon-caprolactone) scaffold, induced robus

196 Synthetic slings, particularly those made of woven polyester and other tightly woven material erode 1

197 structed from modified Z-stents covered with woven polyester or expanded polytetrafluoroethylene graf

198 self-expanding stainless-steel covered with woven polyester or polytetrafluoroethylene material.

199 is of other molecular knot topologies and to woven polymer materials.

200 urely organic, free-standing two-dimensional woven polymer network driven by dative B-N bonds.

201 two-dimensional monolayer nanosheets of the woven polymer network were exfoliated from the layered c

202 Single crystals of this woven polymer network were obtained and its well-defined

203 Mature woven preexisting bone lined by newly formed bone in ear

204 By examining the steps in the weaving process with single crystal X-ray diffraction, w

205 on arising from the mechanical forces in the weaving process, evaporation of the liquid electrolyte a

206 years earlier than any established dates for woven remains elsewhere.

207 Industrial weaving results showed TEA-soy protein had relative weav

208 o turbulent plasmas, as well as in climbing, weaving, sailing, and surgery.

209 The woven scaffold is a hexameric circular helicate generate

210 ide and glycolide) to form a nanofibrous non-woven scaffold using the same solution mixture.

211 scrolled carbon nanotube sheet enables yarn weaving, sewing, knotting, braiding, and charge collecti

212 Structured fabrics, such as woven sheets or chain mail armours, derive their propert

213 Cyclase enzymes weave simple polyprenyl chains into the elaborate polycy

214 articular case, this essay has allowed me to weave some of my major scientific contributions into a t

215 of silk spun by other spiders, including orb-weaving species, at low speeds(2).

216 studied to date are from cob-web and orb-web weaving species, leaving the silks from many other terre

217 hree non-silk gland tissues for three cobweb-weaving spider species.

218 ere, we explored the potential of the funnel-weaving spider, Agelenopsis pennsylvanica, to influence

219 ral threads from Araneus, an ecribellate orb-weaving spider.

220 y, we constructed the first genome of an orb-weaving spider: the golden orb-weaver (Nephila clavipes)

221 explain the greater diversity of modern orb-weaving spiders (Araneoidea) compared with cribellate or

222 rs (Araneoidea) compared with cribellate orb-weaving spiders (Deinopoidea) (2).

223 The orb-weaving spiders (Orbiculariae) comprise more than 25% of

224 RTA clade," which is the sister group to orb-weaving spiders and contains half of all spider diversit

225 tragnatha spiders are the only nocturnal orb-weaving spiders endemic to the Hawaiian archipelago, and

226 he repetitive sequences of fibroins from orb-weaving spiders have been maintained, presumably by stab

227 s of millions of years of evolution, orb-web-weaving spiders have developed the use of seven differen

228 Modern orb-weaving spiders have evolved well-designed adhesives to

229 Orb-web weaving spiders rely on their aerial nets to entrap flyi

230 tly webless spiders than to the araneoid orb-weaving spiders that use adhesive droplet silks.

231 Modern orb-weaving spiders use micron-sized glue droplets on their

232 ae, the most diverse lineage, containing orb-weaving spiders.

233 silk is the sticky spiral in the webs of orb-weaving spiders.

234 ty, teeth chattering, tremor/trembling, head weaving, splayed posture, clonus and wet dog shakes.

235 The sensor is fabricated by weaving straight rectangular electrodes on a transparent

236 he two-dimensional(17,18) layers of flexible woven strands that give conventional textiles their char

237 coration, the unique design of the honeycomb weaving structure endows the F-TENG fabric with an excel

238 e recorded for a garment with a very compact woven structure and highly twisted yarns made of continu

239 tric nanogenerator (TENG) with 3D orthogonal woven structure is developed for effective biomechanical

240 D) were assessed.RESULTSOI bone demonstrated woven structure, increased osteocytes, high turnover, an

241 weaving technique to generate anisotropic 3D woven structures as the basis for novel composite scaffo

242 y in the field of regenerative medicine, non-woven structures have not been used for oxygen sensing.

243 we disclose a simple route to nanoscopic 2D woven structures reminiscent of the methods used to prod

244 the COF provides the opportunity for making woven structures that incorporate flexibility and dynami

245 ~107% increase in failure strain compared to woven structures, along with an up to ~11% increase in s

246 of LCE fibers into single and multi-layered woven structures.

247 lity of Uraraneida precisely to control silk weaving suggests its original use as a wrapping, lining,

248 A Staubli 3D-weaving system equipped with Jacquard UNIVAL 100 and cre

249 d range of perceptual-motor demands: (i) the weaving task involves weaving pieces of fabric from wool

250 Here we present a microscale 3D weaving technique to generate anisotropic 3D woven struc

251 ufacturing of technical textiles by standard weaving technologies.

252 ble complex circuitry by a simply integrated weaving technology.

253 ian archipelago, and multiple species of orb-weaving Tetragnatha co-occur within mesic and wet forest

254 d through a detailed exploration of the vast woven textile design space, we have demonstrated program

255 ased on the use of magnetically modified non-woven textile impregnated with chitosan, was successfull

256 erials such as liquid metals, nanowires, and woven textiles or on optimally configured 2D/3D structur

257 Woven textiles that change porosity in response to tempe

258 l of 3072 6 k carbon fibre tows were used to weave the designed honeycomb architecture.

259 half-way across in "greenstick" fracture to weave the main nest structure.

260 ry and perception plays an important role in weaving the fabric of continuous visual experience.

261 tted a new model of scientific training that wove the laboratory mindset together with the methods of

262 (but of different materials), while weavers weave their famous hanging baskets.

263 polymerase enzyme to elongate DNA chains and weave them non-covalently into a hydrogel.

264 goal is to review the key discoveries and to weave these discoveries together to support novel approa

265 typically of variable length and width) that weave through farmland along hilltops, valleys, rivers,

266 ate or larger size, the protein backbone may weave through itself in complex ways, raising questions

267 ns, we show the way their dendrites fork and weave through space is unexpectedly important for genera

268 ys a five-nucleotide repeating sequence that weaves through a series of two-turn DNA duplexes.

269 unnels, larvae are completely intracellular, woven through multiple live dividing cells.

270 an free aptamer and higher than previous DNA weave tiles decorated with DNA aptamers.

271 sustain large mechanical loads are directly woven to be compatible with flexible systems.

272 ue mineral density (TMD), transitioning from woven to mature bone from 7 to 56 dpp.

273 yarns containing n- and p-type segments are woven to provide textiles containing n-p junctions.

274 ge of narrative event flow enables people to weave together a story.

275 of an extended network of interactions that weave together both domains of the core as well as both

276 Here, we weave together strands from the human mutation and popul

277 We encourage future researchers to weave together the careful analytical considerations ill

278 The current challenge is to weave together these disparate types of data to produce

279 eyl orbits', a kind of cyclotron motion that weaves together Fermi-arc and chiral bulk states.

280 on is an inherently interactive process that weaves together the fabric of both human and nonhuman pr

281 We aim to provide this common language while weaving together fields across electronic structure theo

282 series of geographical isolates or clusters woven together by shared IBD genetic threads.

283 try of identifiable and predictable patterns woven together by stochasticity.

284 These two goals are woven together such that the underlying thought processe

285 tations offered by individual neurons can be woven together to form a coherent, time-invariant, repre

286 showing that basket filaments branch and are woven together to form the basket ring.

287 ntrol between the two SNARE proteins that is woven together with vesicle fusion.

288 r network were obtained and its well-defined woven topology was revealed by X-ray diffraction analysi

289 However, the dog wool-weaving tradition declined during the 19th century, and

290 x and transient reverse strand exchange in a weaving type of mechanism.

291 electrochemical gating principle, the fiber-woven-type transistors exhibit superior bending or stret

292 , textile dye sensitised solar cells (DSSCs) woven using photovoltaic (PV) yarns have been demonstrat

293 bath with disposable wash gloves made of non-woven waffled fibers, saturated with a no-rinse, quickly

294 sed stress-associated behaviors such as head weaving, wall jumping, and nasal hesitancy, while displa

295 were collected using isopropanol imbued non-woven wipes from hard surfaces and objects.

296 This elegant, geometric structure is woven with silk fibers that are renowned for their super

297 A fiber-type sweat sensor was woven with strain and light sensors fibers for simultane

298 centers are topologically independent of the weaving within the COF structure and serve as templates

299 EGR2 transcriptional program was intricately woven within the T(H)17 cell transcriptional regulatory

300 Selected examples of Native American woven woodsplint basketry created between 1870 and 1983