ライフサイエンスコーパス: obstacle

1 cephalography deconvolution to overcome this obstacle.

2 e during which the main axis grows along the obstacle.

3 ement nearly two steps ahead of reaching the obstacle.

4 y shortening their fixation durations at the obstacle.

5 orm at a constant distance from a stationary obstacle.

6 % longer and 6% more frequently ahead of the obstacle.

7 r using the larger available hole to pass an obstacle.

8 rajectory after the main axis has passed the obstacle.

9 post-replicative repair after bypass of the obstacle.

10 dividual atoms, has emerged as a substantial obstacle.

11 ot allow simulating root growth around rigid obstacles.

12 cost on a special grid layout that contains obstacles.

13 plying Nhp6A is able to bypass each of these obstacles.

14 o mitigate collisions of birds with man-made obstacles.

15 exist to cope with the diversity of protein obstacles.

16 merous strategies to overcome the associated obstacles.

17 d Mo additive, is designed to overcome these obstacles.

18 d in custom 3D-printed rhizoboxes containing obstacles.

19 pha1AT-Pittsburgh (AIPR/S) to overcome these obstacles.

20 mammalian cells is limited due to technical obstacles.

21 -seq pipeline that overcomes these technical obstacles.

22 structured genes, G-quadruplexes, and other obstacles.

23 als use active sensing to perceive and avoid obstacles.

24 describe a simple approach overcoming these obstacles.

25 ccessfully simulates wheat RSA growth around obstacles.

26 era that was positioned perpendicular to the obstacle (2-D system).

27 The root network with obstacles allowed calibrating the parameters of a new fu

28 on of an ultracold atomic gas, we avoid this obstacle and demonstrate laser cooling of ions in a neut

29 eat seedlings in sealed petri dishes without obstacle and in custom 3D-printed rhizoboxes containing

30 ) techniques were established to bypass this obstacle and now allow to image and quantify the entire

31 s performed in an attempt to circumvent this obstacle and successfully delivered greatly soluble and

32 microbial pathogens, but one that comes with obstacles and challenges.

33 ng of planned movements to adapt to evolving obstacles and goals.

34 Potential obstacles and perspectives for future research and clini

35 The obstacles and promises of targeting long noncoding RNAs

36 st decade (2010-present), along with current obstacles and prospects towards the ultimate goal of hig

37 ematically differed between real and virtual obstacles and that these behavioural differences occurre

38 pendent on both the abundance of refuges and obstacles and the predator's relative performance capabi

39 To overcome these obstacles and using the similarities between sub-1 nm na

40 even when confronted with a clearly visible obstacle, and do not adopt a substantially different, un

41 lead foot 43% higher and 10% slower over the obstacle, and looked 6% longer and 6% more frequently ah

42 for RNA biology and insights into mysteries, obstacles, and alternative technologies that lie ahead.

43 to generate actionable data, implementation obstacles, and inappropriate use of PROMs as a performan

44 ging-based sensor in the situation where the obstacles are in close vicinity to the robot.

45 ia, VL scale-up is limited due to logistical obstacles around plasma specimen collection, storage, an

46 ntum dots (CQDs) faces several technological obstacles, as conventional lithographic and etching tech

47 Recent progress and major obstacles associated with electrocatalysis and mass tran

48 oad map to overcome the real (and perceived) obstacles associated with remote work.

49 e object detection, tracking, voice control, obstacle avoidance and balance control.

50 w insights into the strategies that underpin obstacle avoidance in birds.

51 artefacts, we show that hand movements in an obstacle avoidance task systematically differed between

52 Here, we evaluate its adaptive value for obstacle avoidance when obstacles can not be localized.

53 d trajectory up to a point very close to the obstacle before veering over the obstacle rapidly, makin

54 nct structure, thus overcoming the synthetic obstacle between two families of zeolitic materials.

55 Here we overcame this obstacle by developing large-scale (Ci-scale) production

56 Here we address this obstacle by presenting a methodology that enables matrix

57 ratic flight paths, and the tendency to pass obstacles by flying above them, provide new insights int

58 Yet, the presence of obstacles can be highly disruptive to the root system.

59 s tracers advected through lattices of solid obstacles can feature superdiffusion.

60 s adaptive value for obstacle avoidance when obstacles can not be localized.

61 Although numerous different obstacles cause Pol II stalling or arrest, the cell some

62 To understand the obstacle characteristics, mobility-based methods are oft

63 r forces, but also for maneuvering cargos on obstacle-coated MT surfaces.

64 ous diffusion of lipid molecules in distinct obstacle configurations, along with the high-resolution

65 n image grids with experimentally determined obstacle configurations.

66 Single human kinesin-1 motors fail to avoid obstacles, consistent with their inability to take sidew

67 To overcome this obstacle, CRISPR-Cas9 gene editing was used to generate

68 of hindering it, an optimal, relatively low obstacle density can significantly enhance cells' propag

69 Singularities of passage times near the obstacles, dictated by the boundary conditions, affect t

70 Despite obstacles, different subspecialty surgeons find PROMs to

71 ly that the size or density of evenly spaced obstacles do not alter the average exit rate of Escheric

72 al results show that the presence of a rigid obstacle does not affect the growth rate of the wheat ro

73 arge amounts of subtomograms is no longer an obstacle due to advances in automation of data collectio

74 Encountering obstacles during transcription such as nucleosomes or pa

75 ising to this end, but there is a formidable obstacle: either the residual stress and gamma/gamma ' m

76 n and similar work modulation in response to obstacle encounters.

77 solutions to overcome some major fundamental obstacles faced by the ASSB community, as well as potent

78 he most pressing questions in the field, the obstacles faced, and the potential avenues to take to pr

79 risingly serious challenge, highlighting the obstacles facing 'theories-of-everything' in psychology.

80 In this review, we discuss the obstacles facing CAR T cell therapy, how these relate to

81 Immune evasion is a major obstacle for cancer treatment.

82 rrounding tissues, and remains to be a major obstacle for cancer treatments.

83 uitously by all cells in the body, posing an obstacle for CD47 blocking treatments due to their syste

84 These HIV-1 latent reservoirs remain a major obstacle for clearance of HIV-1.

85 the D614G mutation is not expected to be an obstacle for current vaccine development.

86 pathways, which have previously been a main obstacle for developing such reactions.

87 ts an important gap in knowledge and a major obstacle for developing targeted interventions.

88 The main obstacle for extending this technique to membrane protei

89 and immunolabeling of epithelial markers, an obstacle for previous clearing techniques, can be achiev

90 This represents a potential obstacle for the broad implementation of these evaluatio

91 A major obstacle for the development of a vaccine is a lack of k

92 od-brain barrier (BBB) remains a significant obstacle for the development of neurological disease the

93 ovement and crop protection, but the primary obstacle for the development of this technology is the e

94 resistance and capacitance delay is a major obstacle for the down-scaling of electronics(1-3).

95 nsition (EMT) has been identified as a major obstacle for the effective treatment of many cancers.

96 o far constituted a seemingly insurmountable obstacle for the formation of ultrashort light pulses.

97 These data shed light on a potential obstacle for the success of HA-stalk-targeting universal

98 The emergence of drug resistance is a major obstacle for the success of targeted therapy in melanoma

99 ivatization facilitates to overcome the main obstacle for the use of gas chromatography in metabolomi

100 aphite electrodes, which has become the main obstacle for their practical applications.

101 A major obstacle for transforming large-area molecular junctions

102 AC), desmoplastic stroma poses a significant obstacle for treatment.

103 properties of HIV-1 integrase (IN) are major obstacles for biochemical and structural studies.

104 growth and progression, and also pose major obstacles for cancer therapy.

105 ation of the field and that continue to form obstacles for convergence, and propose concrete guidelin

106 harge potential of Na-CO(2) batteries create obstacles for practical applications of Li/Na-CO(2) batt

107 genetic overlap between disorders are major obstacles for studying the etiology of these conditions.

108 constellation of molecular alterations poses obstacles for the diagnosis and treatment of prostate ca

109 vity and site-selectivity remain significant obstacles for the practical application of C(sp(3) )-H b

110 ely manufactured parts are key technological obstacles for the widespread adoption of additive manufa

111 The main obstacles for using EOs as food preservatives are their

112 procedures and workflows remain significant obstacles for widespread reproducibility.

113 ed stereo videography of their flights in an obstacle-free tunnel.

114 Two obstacles geometry including rectangle and triangle were

115 It was also observed that the rectangular obstacles have more pronounced effects on obstructing th

116 The results show that increasing the obstacle height will reduce the magnitude of dense curre

117 eless provides possible solutions to current obstacles hindering nanopore sensing technologies.

118 However, obstacles hindering the development of efficient triboel

119 Here, we identify obstacles hindering transparent and reproducible AI rese

120 ex habitats containing a higher abundance of obstacles; however, if detected, prey escape probability

121 However, a major obstacle impeding progress in this area is the lack of t

122 Lifetime relapse rates remain a major obstacle in addressing the current opioid crisis.

123 orrect drug target identification is a major obstacle in drug discovery.

124 tumour microenvironment (TME) forms a major obstacle in effective cancer treatment and for clinical

125 The major obstacle in inferring gene regulatory networks is the la

126 The only major obstacle in its implementation is probably one's imagina

127 rd's trajectory by interposing a disk-shaped obstacle in its preferred flight path.

128 able, making the lack of trait data the main obstacle in model construction.

129 g of symmetry at interfaces is a fundamental obstacle in molecular assembly.

130 , and predictive biomarkers presents a major obstacle in precision oncology.

131 its crucial for biocontrol, presents a large obstacle in producing commercial biocontrol products.

132 ing success of the cancer drug imatinib, one obstacle in prolonged treatment is the emergence of resi

133 Here we describe ways to overcome this obstacle in the context of normal human skin, thus offer

134 However, a major obstacle in the development of RNA therapeutics continue

135 of influenza viruses remains to be the main obstacle in the effectiveness of antiviral treatments du

136 However, such drives face a major obstacle in the form of resistance against the drive.

137 proposed for this purpose have faced a major obstacle in the formation of resistance alleles that pre

138 quence space of foreign antigens presents an obstacle in the identification of cross-reactive peptide

139 Lack of sensory feedback is a major obstacle in the rapid absorption of prosthetic devices b

140 r of birds in response to a newly introduced obstacle in their flight path.

141 One major obstacle in this area of research is the lack of materia

142 ety of compounds from cells, and presents an obstacle in treating chemotherapy-resistant cancers.

143 Chemoresistance is a major obstacle in triple negative breast cancer (TNBC), the mo

144 ity of the human population presents a major obstacle in understanding how autoimmune diseases like m

145 ine if they could identify objects and avoid obstacles in an environment mimicking a real-life situat

146 Potential obstacles in contemporary algorithms that prevent routin

147 ng vaccines against avian IAVs and summarize obstacles in designing universal and pandemic influenza

148 of increasing interest to circumvent several obstacles in drug therapy such as rapid drug metabolizat

149 We present a way to overcome some of the obstacles in identifying the source and age of contamina

150 Consequently, we outline the obstacles in isolating effects that reoccur across platf

151 Diffusion obstacles in membranes have not been directly visualized

152 or guiding needles around sensitive internal obstacles in minimally invasive surgery.

153 he availability and abundance of refuges and obstacles in the habitat.

154 sly and effortlessly navigate boundaries and obstacles in the immediately visible environment, a proc

155 Finally, advances and obstacles in the symptomatic and causal treatment of nar

156 NT Relapse to heroin use is one of the major obstacles in the treatment of opiate addiction.

157 omplex habitats must frequently contend with obstacles in their path.

158 Major obstacles in these ongoing efforts are confusing reports

159 tious as to how the lead foot negotiated the obstacle, in order to reduce the chance of tripping duri

160 onals and barriers such as cost and personal obstacles including stigma, lack of motivation, and nega

161 However, replisomes often encounter obstacles, including bulky DNA lesions caused by reactiv

162 er physiological circumstances and extrinsic obstacles, including other transcribing polymerases, the

163 The main obstacle is conducting experiments in such a way that el

164 The primary obstacle is energy consumption which becomes impractical

165 sephson junction superconducting logic, this obstacle is exacerbated by the cryogenic system requirem

166 The biggest obstacle is producing a vaccine or treatment for influen

167 A primary obstacle is that cMyBP-C localization on thick filaments

168 One obstacle is that the capsular polysaccharide of a domina

169 nd industrial(5) problems, but a substantial obstacle is the myriad of unanticipated cellular respons

170 An emerging approach to circumvent this obstacle is to utilize the distance between a target C-H

171 r conditions where their ability to localize obstacles is severely limited.

172 Two obstacles limit the application of oxidoreductase-based

173 These obstacles limit the performance of transmission imaging.

174 policy, the policy we obtain integrates both obstacle location and optical flow.

175 cle, while posterior parietal cortex tracked obstacle location for planning foot placement nearly two

176 esults show that moths do not favor detailed obstacle location information in navigation, but rely he

177 bots largely rely on geometric maps to avoid obstacles, not traverse them.

178 However, the current obstacle of inertial microfluidics in biological applica

179 post-treatment are essential to overcome the obstacle of morphology/structure inconsistency faced in

180 h therapeutic potential that addresses major obstacles of anti-paramyxovirus drug development.

181 ld that delves deeply into innate signaling, obstacles of reagent purity may be a cause of some of th

182 l evaluation considers both the benefits and obstacles of utilizing the method for universal diagnost

183 se motors move along MTs densely coated with obstacles of various sizes in the cytoplasm.

184 f mobile Nhp6A molecules to bypass different obstacles on DNA suggests they do not block 1D searches

185 Persistent protein obstacles on genomic DNA, such as DNA-protein crosslinks

186 ant role in mitigating the effect of protein obstacles on replication forks.

187 low-cost photovoltaic technology(1-6), face obstacles on their way towards commercialization.

188 function that models the influence of rigid obstacles on wheat root growth.

189 obstacle) or inefficiently (straight towards obstacle or arched over empty space).

190 straight towards an object or arched over an obstacle) or inefficiently (straight towards obstacle or

191 example, we can drive a car while monitoring obstacles, pedestrians, and other vehicles.

192 on times than might be expected from a naive obstacle picture of nucleosomes.

193 e essential enablers to overcome some of the obstacles posed by the non-integration of health system

194 In pediatric NASH, practical obstacles, pubertal hormonal changes, and stringent safe

195 lose to the obstacle before veering over the obstacle rapidly, making a minimal deviation to avoid a

196 However, major obstacles remain for widespread AAV utilization, such as

197 ise in the prevention of human disease, many obstacles remain that have hampered their clinical use;

198 Failure to bypass these obstacles results in genome instability and may facilita

199 aper numerically investigates the impacts of obstacle's height and geometrical shape on the settling

200 Practical obstacles, such as intricate designs and expensive equip

201 iation technologies has encountered numerous obstacles, such as long operation time, high chemical co

202 tio (m/z) of molecular peaks present a major obstacle that can make it impossible to distinguish one

203 ved CDK4/6 inhibitors has emerged as a major obstacle that hinders their utility beyond ER(+) breast

204 does so by creating a coaxially base-paired obstacle that impedes scanning from a monophosphorylated

205 he main bottleneck in flood risk studies, an obstacle that may be remedied using large-scale empirica

206 al applications of Notch1 inhibition and the obstacles that hinder its clinical application are discu

207 ly regulated mechanisms to overcome numerous obstacles that naturally occur throughout chromosomal DN

208 es of research for assessing how to overcome obstacles that the exceptional features of Env impose on

209 s is discussed with reference to the therapy obstacles that the intra-tumour heterogeneity of glioma

210 model estimates the impact of the different obstacles that viruses must surmount to achieve entry; a

211 To overcome these obstacles, there has been a burgeoning investigation int

212 Escherichia coli epitomizes these obstacles: this gram-negative bacterial species is the m

213 One obstacle to a broader use of these receptor/ligand syste

214 This lack of consensus is the primary obstacle to a constructive debate over the role and impo

215 The major obstacle to a cure for HIV infection is the persistence

216 One major obstacle to achieve a higher accuracy is the lack of kno

217 ength of hospital stay represented the major obstacle to achieve TO.

218 here the xenoantibodies present a formidable obstacle to advancement of this important therapy.

219 standing the adsorption effects is the major obstacle to advancing the measurement science.

220 burden in the United States is an important obstacle to assessing the cost-effectiveness of potentia

221 Relapse of cancer remains the largest obstacle to better survival outcomes.

222 the reconstructed wheat root network without obstacle to calibrate an RSA model implemented in the R-

223 The long-standing obstacle to characterizing the vacancy networks of PBAs

224 n insulin-dependent diabetes, is the central obstacle to correcting high blood glucose, a primary cau

225 A major obstacle to curing chronic myeloid leukemia (CML) is the

226 ptability of pathogen populations is a major obstacle to effective disease control measures.

227 l for tumor growth and metastasis as well as obstacle to effective immunotherapy.

228 fective NAPE-PLD inhibitors has been a major obstacle to elucidating the role of NAPE-PLD and N-acyl-

229 donor organs continues to represent a major obstacle to graft survival.

230 is poorly understood and poses a substantial obstacle to harnessing their potential for attenuating d

231 The major obstacle to human immunodeficiency type 1 virus (HIV-1)

232 The major obstacle to its application is the difficulty in growing

233 A main obstacle to its application is the poor interface contac

234 perfect data, which has proved to be a major obstacle to its application to physical systems(8).

235 A major obstacle to nanodrugs-mediated cancer therapy is their r

236 cted resting CD4(+) T cells are the greatest obstacle to obtaining a cure for HIV infection, as these

237 en therapy after surgery constitutes a major obstacle to optimal outcomes.

238 One obstacle to overcome is the amount of data needed by lea

239 However, one obstacle to overcome is the transport and storage of cor

240 oral polio vaccine (OPV) poses a significant obstacle to polio eradication.

241 The problem of common sense remains a major obstacle to progress in artificial intelligence.

242 isoform quantification errors poses a lesser obstacle to splicing analysis.

243 ropouts associated with scRNA-seq is a major obstacle to studying alternative splicing.

244 the threat of drug resistance is a constant obstacle to sustainable malaria control.

245 However, one obstacle to the broad adoption of these methods is the c

246 Development of resistance remains the key obstacle to the clinical efficacy of EGFR tyrosine kinas

247 The blood brain barrier (BBB) is a major obstacle to the delivery of therapeutics to the brain.

248 s(-1), presenting a previously unidentified obstacle to the design of efficient singlet fission sola

249 e ivermectin treatment and overcomes a major obstacle to the elimination of onchocerciasis in areas c

250 ly known as residual lithium, is a practical obstacle to the mass-scale synthesis and handling of hig

251 esistance to chemotherapy represents a major obstacle to the successful treatment of non-small-cell l

252 ules only to sites of active pathology is an obstacle to their clinical use.

253 mplete cures, acquired resistance remains an obstacle to their success as well.

254 A significant obstacle to this goal arises from the lack of a computat

255 Major obstacle to this goal is the large number of elemental q

256 A major obstacle to this is our poor understanding of the phenot

257 A major obstacle to treating Alzheimer's disease (AD) is our lac

258 highly regulated, representing a significant obstacle to virus loading, movement, and subsequent unlo

259 There are many obstacles to achieving diversity in the biomedical workf

260 tion of halide perovskites, and create major obstacles to applications of these materials.

261 ling slow electrical propagation and provide obstacles to attract re-entry, facilitating the initiati

262 work has four broad goals: understanding the obstacles to changes in the way research is assessed; ex

263 The obstacles to clinical translation of these strategies ar

264 Obstacles to convincingly linking RNA viruses to islet a

265 The chief obstacles to development and clinical implementation of

266 cellular and animal models have resulted in obstacles to discovering more effective mood stabilizers

267 e stability of paused Pol II, nucleosomes as obstacles to elongation, and potential roles of pausing

268 One of the main obstacles to gene replacement in plants is efficient del

269 lity to enzymatically amplify DNA damage are obstacles to genome-wide sequencing, new developments in

270 arge genomics datasets by removing technical obstacles to independent exploration.

271 led the replisome, which encounters numerous obstacles to its progression.

272 ntives, and we show theoretically how social obstacles to male provisioning can be overcome.

273 Many risks to privacy and many obstacles to medical research can be eliminated or mitig

274 owing therapy constitutes one of the biggest obstacles to obtaining cures in breast cancer, but it re

275 mance aqueous ZIBs; however, there are still obstacles to overcome before realizing their full potent

276 In order to address these two obstacles to oxidoreductase-based asymmetric synthesis,

277 Obstacles to PROMs use include failure to generate actio

278 One of the most challenging obstacles to realizing exascale computing is minimizing

279 veal a role of FAM111A in overcoming protein obstacles to replication forks, shedding light on cellul

280 Here, in cells containing potent obstacles to replication, we find two different lesion p

281 nce individuals, further contributing to the obstacles to study these populations.

282 erance and genetic drug resistance are major obstacles to successful TB therapy.

283 uss the measures taken to overcome potential obstacles to successful transplantation from this donor

284 Here, we 1) review obstacles to systematically using data from legacy archa

285 fore, this Review is aimed at addressing the obstacles to the achievement of cure in RA.

286 ively on the DNA and that nucleosomes act as obstacles to the diffusion, lowering the permeability an

287 However, there are several obstacles to the reliable quantification of neuroinflamm

288 kes, respond to template damage that acts as obstacles to the replisome, deal with broken forks, and

289 reting polygenic scores and underappreciated obstacles to their broad use.

290 al glycol CNPs designed to overcome multiple obstacles to their use are described and key factors inf

291 ste of administrative resources, and serious obstacles to wildlife protection.

292 quantum confinement still remains a critical obstacle toward higher-performance perovskite CQD photov

293 The main obstacles toward further commercialization of electroche

294 nt thermal dissipation are shown to be major obstacles toward high radiance and long lifetime.

295 Despite many obstacles toward the realization of such devices, impres

296 Construction of obstacles upstream of hydraulic structures is a common m

297 he replication process in dealing with these obstacles, which includes modulation of replication orig

298 xpression by helping Pol II bypass chromatin obstacles while maintaining their structures.

299 Investigators are addressing the current obstacles with a wide range of engineering strategies in

300 inney et al., and provide solutions to these obstacles with implications for the broader field.