ライフサイエンスコーパス: load-bearing

1 ity, can simultaneously provide mobility and load bearing.

2 ps and joint congruency while the patient is load bearing.

3 event endosteal bone formation stimulated by load bearing.

4 chieved and maintained through adaptation to load bearing.

5 ump of the cell, showing that the tether was load-bearing.

6 We have studied the elasticity and load bearing ability of plant tissue at the cellular lev

7 einforcement for polymers, but their limited load-bearing ability and flammability prevent them from

8 s--play an important role in determining the load-bearing ability of structures ranging from bridges

9 Here, we map load-bearing across the mammalian spindle in space-time

10 The load-bearing activity of the Dam1c depends on its abilit

11 distinct microtubule-binding activities: the load-bearing activity of the Ndc80 complex and a less we

12 accelerated demand for structural (that is, load-bearing) alloys in key sectors such as energy, cons

13 require combinations of performance such as load bearing and energy dissipation.

14 h multiscale self-organization for effective load bearing and energy dissipation.

15 these structures hold great promise as high load bearing and impact-resistant materials due to a uni

16 Diarthrodial joints are essential for load bearing and locomotion.

17 old (LIPPS) that simultaneously enhances its load-bearing and energy dissipation capability under cyc

18 e energy capacity of a system by integrating load-bearing and energy-storage functions in a multifunc

19 wood fibers, and added silicates yielding a load-bearing and low-subsidence composite.

20 Actin stress fibers (SFs) are load-bearing and mechanosensitive structures.

21 us potential for the development of improved load-bearing and protective engineering materials.

22 urrent challenges of synthetic materials for load-bearing applications from self-adaptive capabilitie

23 on in wet webs and could limit the potential load-bearing applications of silk and its analogues.

24 ng strong, thermally resistant adhesives for load-bearing applications remains challenging.

25 r the fabrication of high-strength beams for load-bearing applications through the modification of th

26 he potential of Annona reticulata fibers for load-bearing applications.

27 are promising candidates in orthopedics for load-bearing applications.

28 prototype that integrate energy storage into load-bearing architectural elements.

29 rable for hydrogels' nascent applications in load-bearing artificial tissues and soft devices.

30 Individual kinetochore particles maintain load-bearing associations with assembling and disassembl

31 d that this activity is dispensable for both load-bearing attachment formation and checkpoint activat

32 the RZZ complex can inhibit the formation of load-bearing attachments and that this activity of the R

33 plex localization, prevents the formation of load-bearing attachments during most of prometaphase and

34 Errorless chromosome segregation requires load-bearing attachments of the plus ends of spindle mic

35 ing the ability of the Ndc80 complex to form load-bearing attachments to and track with dynamic micro

36 0 complex is capable of forming the dynamic, load-bearing attachments to assembling and disassembling

37 kinetochore microtubule plus-ends fine-tune load-bearing attachments to both growing and shrinking m

38 rchestrate chromosome segregation by forming load-bearing attachments to dynamic microtubule tips, an

39 is requires kinetochores to make persistent, load-bearing attachments to dynamic microtubule tips, th

40 ast, are vital mechanical hubs that maintain load-bearing attachments to microtubules during mitotic

41 ntromeric chromatin and maintains persistent load-bearing attachments to the dynamic tips of spindle

42 we show that clusters of human CLASP2 form a load-bearing bond with terminal non-GTP tubulins at the

43 hate bone cement, thus providing support for load-bearing bone defects and subsequently bone regenera

44 operties and excellent osteoconductivity for load-bearing bone defects repair is still challenging in

45 ritical issues like compressive strength for load-bearing bone grafts.

46 Pa in 6 weeks, which is still sufficient for load-bearing bone.

47 gradual-resorbability for restoration of low-load-bearing bone.

48 a null mutation of P2X7R have osteopenia in load bearing bones, suggesting that the P2X7R may be inv

49 Flexible power sources with load bearing capability are attractive for modern wearab

50 Unusually strong load bearing capability of the Ron Resch pattern was fou

51 glands, which have different morphology, and load bearing capability.

52 ometric and stiffness properties, as well as load bearing capability.

53 ty, CFU, and lactic acid, while matching the load-bearing capability of commercial composites without

54 In the jammed state, its load-bearing capability surpasses the total SMA weight b

55 ng efficient mechanical energy storage(1,2), load-bearing capability, impact resistance and motion ag

56 ed with the system's linkage versatility and load-bearing capability, makes the M13 template an attra

57 wer density of 89 mW/m(2), demonstrating its load-bearing capability.

58 ues was observed (Emod and UTS), the overall load-bearing capacity and peak structural strength remai

59 tment and that this is required for improved load-bearing capacity and silencing of the spindle assem

60 l to modern infrastructure due to their high load-bearing capacity and structural efficiency.

61 preserves material integrity with 60-80% of load-bearing capacity at >50% of compressive strain.

62 and in terms of irreversible structural and load-bearing capacity changes over time.

63 rs, achieving high water content, as well as load-bearing capacity comparable to that of polyethylene

64 opically to nonvolar skin areas, improve the load-bearing capacity of amputation stump skin, and ulti

65 Our data show that the load-bearing capacity of the kinesin motor is highly var

66 ased by 12.25%, enhancing the compaction and load-bearing capacity of the soil.

67 nsport of nutrients and wastes, and the high load-bearing capacity provides structural support for th

68 alysis revealed the cause of increase in the load-bearing capacity to be diminished tensile stresses

69 culty is to construct nanostructures of high load-bearing capacity, characterized by multiple propert

70 ystem with 15% perlite replacement optimizes load-bearing capacity, making it well-suited for high-st

71 aneously achieve high water content and high load-bearing capacity.

72 scoelasticity of the extracellular matrix in load-bearing cartilage influence the proliferation and p

73 he interaction of beta GlcY with AGPs in the load-bearing cell layers inhibited root elongation.

74 In plants, the presence of a load-bearing cell wall presents unique challenges during

75 o cholerae, antibiotic-induced damage to the load-bearing cell wall promotes increased signaling by t

76 king of Origami building blocks to construct load-bearing cellular metamaterials.

77 due to the highly anisotropic orientation of load-bearing cellulose microfibrils and their effect on

78 rmation depend on the oriented deposition of load-bearing cellulose microfibrils in the cell wall.

79 conducting carbon network that permeates the load-bearing cement-based matrix.

80 ture of bone is known to be important to its load-bearing characteristics, but relatively little is k

81 Cellulose microfibrils are the major load-bearing component in plant cell walls and are assem

82 The main load-bearing component of plant cell walls is cellulose,

83 As the load-bearing component of the cell wall, individual cell

84 extracellular matrix (ECM) forms the primary load bearing components in the arterial wall.

85 Collagen fibers, one of the key load-bearing components of the extracellular matrix, con

86 , wall proteins are unlikely to be important load-bearing components of the plant cell wall.

87 flammable natural fibers in multifunctional load-bearing composites that possess both flame retardan

88 hydrogen bonding by implementing a specific load-bearing connection (i.e. the joint element).

89 The exceptional mechanical properties of the load-bearing connection of tendon to bone rely on an int

90 mitosis depends on "amphitelic attachments"-load-bearing connections of sister kinetochores to the o

91 Thus, load-bearing connections to the opposite spindle poles f

92 solution, digital 3-D reconstructions of the load-bearing connective tissues of the monkey ONH confir

93 dels show that IOP-related stress within the load-bearing connective tissues of the optic nerve head

94 nges in IOP have a substantial impact on the load-bearing connective tissues of the optic nerve head

95 s during ambulation at the knee to shift the load-bearing contact location of the joint to a region n

96 substrates, indicating that it makes optimal load-bearing contacts with dsDNA.

97 Load-bearing cortical bridging was achieved in all anima

98 In this protocol, we describe a reproducible load-bearing critical-size composite tissue defect compr

99 Inherited defects that weaken the keratin load-bearing cytoskeleton produce phenotypes characteriz

100 The acquisition of the load-bearing dentary-squamosal jaw joint was a key step

101 arose independently(7,10), and in which the load-bearing dentary-squamosal joint is a synapomorphy o

102 tive wearable tourniquet, a transforming and load-bearing deployable structure, and an untethered, se

103 uing paradigm of bionic interface for robust load-bearing device.

104 Sarcomeres are force-generating and load-bearing devices of muscles.

105 As in primates, the TMJ was found to be load-bearing during mastication, with compressive strain

106 that must balance both biotic and structural load bearing duties.

107 tubular counterparts, delivering a superior load-bearing efficiency and conductive network for reali

108 Our results show that dystrophin is a load-bearing element and its deficiency leads to loss of

109 t abundant biopolymer in the world, the main load-bearing element in plant cell walls, and represents

110 Collagen is the main structural and load-bearing element of various connective tissues, wher

111 associated proteins are the only significant load-bearing elements in axons.

112 Finally, load-bearing failure point can be a quantitative measure

113 factor alone, including implantation in the load-bearing femoral condyle.

114 sents a marked advance in the engineering of load-bearing fibrous tissues, and will find widespread a

115 (2+) signaling in force generated across the load-bearing focal adhesion protein vinculin within MSCs

116 l envelope depend on spatial constraints and load-bearing forces across the cell envelope and surface

117 icotyledon primary cell walls, affecting the load-bearing framework with the participation of xyloglu

118 and exhibits features that suggest a loss of load-bearing function in its articular-quadrate joint.

119 hanges provide evidence of a gradual loss of load-bearing function in the articular-quadrate jaw join

120 trices by enabling microtubules to perform a load-bearing function.

121 main results from excellent shielding of the load-bearing H bonds from competing water.

122 ent of the force required to break apart the load-bearing H bonds under locally hydrophobic condition

123 Although the skeleton's adaptability to load-bearing has been recognized for over a century, the

124 Xyloglucan (XG), the principal load-bearing hemicellulose of dicotyledonous plants, has

125 otein LC gels offers great opportunities for load-bearing high-tech applications.

126 unctionalize a vast class of new anisotropic load-bearing hybrid metal composites with highly directi

127 des the distinct advantage of having the key load-bearing hydrogen bonds (H bonds) buried in the hydr

128 scaffolds uniquely combine the potential for load-bearing immediately after implantation in vivo with

129 Chromosome segregation requires load-bearing interactions across kinetochore fibers and

130 inflammatory arthritis severity, even in non-load-bearing joints, but the mechanism is unknown.

131 Furthermore, we show that two load-bearing kinesins are incapable of equally sharing t

132 slows but does not prevent the formation of load-bearing kinetochore-microtubule attachments and red

133 ich Aurora B could regulate the stability of load-bearing kinetochore-microtubule attachments.

134 nt years, the OM has also been shown to be a load-bearing layer of the cell surface that fortifies ce

135 for growth, because it acts as a continuous load-bearing layer, resisting tension.

136 Vinculin (Vcn) is a load-bearing linker protein that exhibits directional ca

137 Natural load-bearing materials such as tendons have a high water

138 ding strength and self-healing properties to load-bearing materials.

139 polymeric interfaces, including structural, load-bearing materials.

140 lead to the development of high-performance load-bearing materials.

141 in cartilage appears operative not only for load-bearing matrix constituents, but also for PRG4 mole

142 ndings demonstrate that apical bulkheads are load-bearing mechanical elements that could protect the

143 ons and ligaments, where it gives them their load-bearing mechanical properties.

144 lose microfibrils (CMFs) as one of the major load-bearing mechanisms of the growing cell wall.

145 rate as a cohesive molecular unit that forms load-bearing microtubule attachments that drive mitotic

146 gen, particularly type I collagen, the major load-bearing molecule of atherosclerotic plaques, render

147 degrade triple-helical collagen, the primary load-bearing molecule of the ECM within human atheroma.

148 the possibility that all catch bonds between load-bearing molecules are "mechanokinetically" tuned to

149 sequent loading) for homeostasis of normally load-bearing muscles.

150 The main load-bearing network in the primary cell wall of most la

151 nterfacial jamming of nanoparticles (NPs), a load-bearing network of NPs forms as the areal density o

152 Cellulose forms the major load-bearing network of the plant cell wall, which simul

153 l surfaces and to tether microfibrils into a load-bearing network, thereby playing a central role in

154 iggered dynamic shear failure of the olivine load-bearing network.

155 he actin cytoskeleton assembles into diverse load-bearing networks, including stress fibers (SFs), mu

156 arises from size-dependent strengthening of load-bearing nickel struts whose diameter is as small as

157 ule crosslinker NuMA is needed for the local load-bearing observed, whereas Eg5 and PRC1 are not dete

158 eering approaches within a reproducible, non-load-bearing orthotopic site.

159 lay-up shaping in order to produce a rigid, load-bearing part.

160 toughness enhancement is achieved in a stiff load-bearing polymer network, demonstrating the utility

161 er a liquid crystal display as an example of load-bearing power sources with various form-factor desi

162 he crosslinks of a network instead of in the load-bearing primary strands.

163 Xyloglucan (XyG) is a load-bearing primary wall component in dicotyledonous an

164 Elastomeric materials are designed to have load bearing properties whereas hydrogels are proposed t

165 l G1-domain, that provide cartilage with its load bearing properties.

166 Articular cartilage has unique load-bearing properties but has minimal capacity for int

167 rusion of the cell edge as a function of the load-bearing properties of integrin-based adhesions, act

168 cific for standing while providing bilateral load-bearing proprioceptive input.

169 An interfacial load-bearing protein (A. pectinata foot protein-1, apfp-

170 ocus on the mechanical role of the essential load-bearing protein Hec1 [8-11] in mammalian cells.

171 study showed that desmin is an intracellular load-bearing protein that influences airway compliance,

172 Titin isoform, the major load-bearing protein within muscle cells, was unaltered

173 ously showed that desmin is an intracellular load-bearing protein, which influences airway compliance

174 nct directions is mediated by the ability of load-bearing proteins to preferentially maintain physica

175 y efforts to obtain the primary sequences of load-bearing proteins, followed by the latest developmen

176 ation in knee cartilage was identified, with load-bearing regions exhibiting high SZP expression.

177 not perturb the articular program, except in load-bearing regions, where it also provokes chondrocyte

178 Despite the structural, load-bearing role of cellulose in the plant kingdom, cou

179 se observed for other protein domains with a load-bearing role.

180 catenin conformation, and identified a novel load-bearing salt bridge.

181 Building complex load-bearing scaffolds depends on effective ways of join

182 s bioactive or reinforcing components within load-bearing scaffolds; and as injectable microenvironme

183 een cellulose and xylan is important for the load-bearing secondary cell wall of flowering plants.

184 The OM and PG are load-bearing, selectively permeable structures that are

185 Here, we report that the load-bearing shells of the brachiopod Discinisca tenuis

186 the disc and condylar cartilage function as load-bearing, shock-absorbing, and friction-reducing mat

187 ndibular condylar cartilage functions as the load-bearing, shock-absorbing, lubricating material in t

188 ace-modified magnesium alloy as the internal load-bearing skeleton and bioglass-magnesium phosphate b

189 Load-bearing soft tissues normally show J-shaped stress-

190 Load-bearing soft tissues, e.g., cartilage, ligaments, a

191 versely affect the structure and function of load-bearing soft tissues, with clinical sequelae often

192 ls that shielding water accessibility to the load-bearing strands is a critical molecular determinant

193 ve alignments that are optimal for providing load-bearing structural support for the heart.

194 The occurrence of modular peptide repeats in load-bearing (structural) proteins is common in nature,

195 e grafts to provide immediate functionality (load bearing, structural support) and long-term regenera

196 measures of mechanical reliability) for any load bearing structure, like a vertical plant stem, is h

197 work, which is considered to be the dominant load-bearing structure in the growing cell walls of non-

198 a cellulose-xyloglucan network as the major load-bearing structure is in need of revision.

199 ctural stiffness of a rim, which is the main load-bearing structure of the loader during operation, i

200 onal network that functions as the principal load-bearing structure of the primary cell wall.

201 Numerical simulations show that the main load-bearing structure shifts from the coal body to the

202 Future studies defining the specific load bearing structures and their composition and organi

203 To examine the biomechanical deformation of load bearing structures of the optic nerve head (ONH) re

204 ding transforms flexible fiber networks into load-bearing structures by incorporating rigid, discrete

205 ls which had sufficient strength to serve as load-bearing structures for heavy tiled roofs.

206 Yet, how load-bearing structures in tendons sense and adapt to ph

207 sttranslationally modified microtubules form load-bearing structures that regulate myocyte mechanics

208 Tendons are important load-bearing structures, which are frequently injured in

209 f buckling-type instabilities in thin-walled load-bearing structures.

210 ion of switchable hinges allows us to create load-bearing structures.

211 These responses are mediated by load-bearing subcellular structures, such as the plasma

212 indicate that the vimentin network acts as a load-bearing superstructure capable of integrating and r

213 mpairing upper-limb function in overhead and load-bearing tasks.

214 with the common depiction of xyloglucan as a load-bearing tether spanning the 20- to 40-nm spacing be

215 o promote persistent tubulin assembly at the load-bearing tethered ends, such as at the kinetochores

216 trength that allows kinetochores to maintain load-bearing tip attachments during both microtubule ass

217 Articular cartilage is a load-bearing tissue found in animal and human joints.

218 he leaf epidermis collectively function as a load-bearing tissue that controls organ growth.

219 The sclera, the eye's primary load-bearing tissue, substantially influences the globe'

220 Load-bearing tissues are typically fortified by networks

221 Successful engineering of load-bearing tissues requires recapitulation of their co

222 thetic hydrogels remain inferior to those of load-bearing tissues such as ligaments, one of the stron

223 emerged as viable approaches for engineering load-bearing tissues.

224 of structure-function relationships in these load-bearing tissues.

225 y interconnected clusters that act as rigid, load bearing units.

226 ductions that may be achieved in supporting (load-bearing) vehicle parts when the gross vehicle mass

227 linear glucose polymers into microfibrils as load-bearing wall components.

228 ibers in response to a sustained increase in load-bearing work (mechanical overload [MOV]).