ライフサイエンスコーパス: probing

1 s of structure or on per-nucleotide chemical probing.

2 g criteria that also evaluated bleeding upon probing.

3 imal probing, or facility-based nasolacrimal probing.

4 nstitute significant risk factors for failed probing.

5 st tissues with virus-infected saliva during probing.

6 Here, we report the results of probing 133 surface-exposed residues in RD3 by single su

7 Signs of infection (51.7%) and bleeding on probing (37.5%) were common signs detected at the time o

8 valence of lysogeny among marine bacteria by probing a collection of 1239 publicly available bacteria

9 By closely probing a Cu nanoparticle (NP) ensemble catalyst active

10 re that is capable of image segmentation and probing a variety of color spaces (RGB, HSB, Y'UV, L*a*b

11 (82%) patients who underwent facility-based probing after 6 months of observation.

12 e the clinical efficacy of nasolacrimal duct probing among patients with CNLDO symptoms at various ag

13 NAs are methylated by MTA, and RNA structure probing analysis reveals a decrease in secondary structu

14 This method of probing and controlling the local membrane environment m

15 teins into host tissues during their initial probing and feeding.

16 ne and transcript abundances, stable isotope probing and nitrate production.

17 Probing and palpation of the hard cortical bone, also kn

18 similar in both groups, whereas bleeding on probing and plaque scores were higher in the CAS (P = 0.

19 Gingival status (bleeding on probing) and oral hygiene effectiveness (dental calculus

20 including pocket probing depth, bleeding on probing, and clinical attachment level were recorded dur

21 m, presence of bleeding and/or SUP on gentle probing, and radiographic marginal bone loss (MBL) >=3 m

22 correlations with plaque scores, bleeding on probing, and RF-IgA.

23 The work establishes DMS probing as a method for characterizing A(syn)-T Hoogstee

24 ologies demonstrate that the presented force-probing assays and the theoretical model can serve a com

25 Probing assays demonstrated that magnesium oxide alone o

26 ome), gingival index, plaque control record, probing attachment level, and probing pocket depth were

27 er-cooling, in-situ isotope purifcation, and probing barium atomic ions confined in a radio-frequency

28 6 randomly generated surface topographies by probing basic functions such as migration, proliferation

29 conditions, the reflectance, attraction, and probing behaviors of psyllids were evaluated on surfaces

30 Probing between 7 and 9 months appears to be reasonable

31 emonstrating the utility of DIMEN for deeply probing biochemical networks that generate extensive yet

32 guided surgery, or as ratiometric probes for probing biochemical pathways.

33 orsened SRP outcomes in terms of bleeding on probing (BOP) (OR = 1.02, P <0.05) and mean PD (P <0.05)

34 ), gingival recession (REC), and bleeding on probing (BoP) being measured.

35 Gingival index (GI) and bleeding on probing (BOP) were evaluated in addition to plaque index

36 recession, plaque index, GI, and bleeding on probing (BOP) were recorded at baseline, 3 and 6 months.

37 dex (GI), plaque index (PI), and bleeding on probing (BOP) were recorded on fully erupted teeth and s

38 Gingival crevicular fluid, bleeding on probing (BOP), and interleukin-1beta were tested (ELISA)

39 ng depth (PD), attachment level, bleeding on probing (BOP), and interproximal plaque index (API) were

40 uded probing pocket depth (PPD), bleeding on probing (BoP), gingival margin level, dentin hypersensit

41 Bleeding on probing (BOP), plaque index, and probing depth (PD) were

42 Full-mouth plaque-index (PI), bleeding-on-probing (BOP), probing depth (PD), clinical attachment l

43 ical attachment level (CAL), and bleeding on probing (BOP).

44 -34.27 to 24.53%, P = 0.75) for bleeding on probing (BOP); a WMD of 0.36 mm (95% CI = 0.12 to 0.59 m

45 ss [MBL], plaque index [PI], and bleeding on probing [BOP] in shamma users and non-users [controls] w

46 ry variables (plaque index [PI], bleeding on probing [BOP], probing depth (PD) and crestal bone loss

47 By probing both the electronic structure changes as well as

48 ta are corroborated with secondary structure probing by DMS footprinting experiments.

49 ce of substrates, as well as, attraction and probing by psyllids.

50 Through probing cDNA extension mediated by Bst DNA polymerase at

51 single-nucleotide mutations is critical for probing cell biology and for precise detection of diseas

52 We also include a procedure for probing cell properties by laser ablation.

53 a, which take advantage of novel methods for probing cellular and molecular systems, suggest involvem

54 tprinting (HRPF) is a powerful technique for probing changes in protein topography, based on quantify

55 man image-activated cell sorting by directly probing chemically specific intracellular molecular vibr

56 , we develop a Bayesian learning approach to probing chemisorption processes at atomically tailored m

57 ance (NMR) is a powerful analytical tool for probing complex biological processes inside living organ

58 s a powerful yet straightforward approach to probing complex systems.

59 ht an electron-microscopy-based approach for probing complex-shaped nanophotonic structures.

60 (3009 eyes), who underwent nasolacrimal duct probing conducted under topical anesthesia in the operat

61 strategy can serve as an important tool for probing conformational changes in DNA upon interaction w

62 nction and underscore the utility of XSI for probing conformational ensembles under a wide range of s

63 motor cortex (M1) of 16 healthy subjects by probing cortico-cortical excitability and behavior.

64 Probing corticospinal excitability via transcranial magn

65 persistence-based clustering, is capable of probing densely packed structures which vary in scale.

66 r values, including the number of sites with probing depth >= 5 mm (primary outcome variable), were r

67 tment (less than or equal to four sites with probing depth >= 5 mm), as opposed to four (16%) in CG.

68 odontal parameters (proportion of teeth with probing depth >=4 mm at incisors and molars and with vis

69 status measured as the number of teeth with probing depth >=4 mm with bleeding on probing (PD/BOP) o

70 The mean percentage of sites with probing depth >=5 mm was reduced over the course of the

71 ssing teeth, percentage of sites with pocket probing depth >=6 mm, and mean pocket probing depth) had

72 The probability of having 6 month probing depth <=3 mm was 93.5% when the surgical flap wa

73 al attachment level (iCAL), 2) interproximal probing depth (iPD), 3) numbers of caries, and 4) missin

74 0 patients (20 of either PP) presenting with probing depth (PD) >=4 mm and gingival index (GI) >=1 at

75 al and Peri-Implant Diseases and Conditions: probing depth (PD) >=6 mm, presence of bleeding and/or S

76 laque index [PI], bleeding on probing [BOP], probing depth (PD) and crestal bone loss [CBL]) are wors

77 The probing depth (PD) and the proportion of PD >6 mm were p

78 ompared to PM, PS showed significantly lower probing depth (PD) at 1- and 2-week as well as modified

79 An average probing depth (PD) reduction of 0.73 +/- 0.11 mm and dec

80 Bleeding on probing (BOP), plaque index, and probing depth (PD) were confirmed reliable discriminants

81 Probing depth (PD), attachment level, bleeding on probin

82 Probing depth (PD), CAL, plaque index (PI), and interpro

83 index (VPI), gingival bleeding index (GBI), probing depth (PD), clinical attachment level (CAL), and

84 Recession, probing depth (PD), clinical attachment level (CAL), tre

85 laque-index (PI), bleeding-on-probing (BOP), probing depth (PD), clinical attachment loss (AL), and m

86 l-mouth periodontal status was assessed with probing depth (PD), clinical attachment loss (CAL), ging

87 solated deep intrabony defect each (baseline probing depth (PD): 9.03 +/- 1.62 mm; clinical attachmen

88 mm (95% CI = -0.11 to 0.36 mm, P = 0.30 for probing depth (PD); a WMD of 1.08 (95% CI = -0.39 to 2.5

89 in (>=3 mm) and pocket closure (post-surgery probing depth [PD] <= 4 mm).

90 t 3- and 6 months for repeat measurements of probing depth and attachment level.

91 ient- and implant-level characteristics with probing depth and bone loss around dental implants METHO

92 tly associated with both outcomes (increased probing depth and bone loss).

93 Both probing depth and CAL had direct associations with all-c

94 ed factors and clusters, and two Pd markers- probing depth and clinical attachment loss (CAL).

95 were fabricated to serve as a reference for probing depth and relative attachment level measurements

96 e post-surgical flap position and subsequent probing depth measurements following osseous surgery.

97 The number of sites with a probing depth of >=4 mm was significantly lower among th

98 al bone sounding measurements and subsequent probing depth was found at 6 months (R = 0.56, P < 0.001

99 pocket probing depth >=6 mm, and mean pocket probing depth) had an area under the curve (AUC) of 0.69

100 Plaque index, bleeding index, probing depth, and clinical attachment level (CAL) were

101 ndex, gingival index, sulcus bleeding index, probing depth, and clinical attachment level) were recor

102 as performed, including bleeding on probing, probing depth, and clinical attachment level.

103 are associated with peri-implant bone loss, probing depth, and defect morphology in patients with pe

104 Periodontal parameters, including pocket probing depth, bleeding on probing, and clinical attachm

105 ical, and radiographic parameters, including probing depth, bleeding on probing, visual inspection, a

106 dontal examinations determined plaque score, probing depth, clinical attachment level (CAL), and the

107 Plaque index, probing depth, clinical attachment level, and bleeding o

108 ar (2002 to 2006) dental exams that included probing depth, clinical attachment level, gingival bleed

109 nd clinical periodontal parameters including probing depth, clinical attachment level, gingival index

110 and 240 +/- 12 months after surgery, data on probing depth, clinical attachment level, recession dept

111 l clinical parameters, with the exception of probing depth, demonstrated differences in intragroup ev

112 Probing depth, gingival index (GI), plaque index (PI), a

113 Post-restoration, clinical (probing depth, recession, width of keratinized mucosa, b

114 graft was associated with with reduction of probing depth, soft tissue dehiscence and plaque index c

115 s associated with a significant reduction in probing depth, soft tissue dehiscence and plaque index,

116 significantly more likely (P < 0.01) to have probing depths > 3 mm at 3 and 6 months.

117 orming osseous surgery resulted in shallower probing depths at 3 and 6 months.

118 Probing depths were related to the presence or absence o

119 Probing depths were similar in both groups, whereas blee

120 post-surgical flap placement and subsequent probing depths.

121 model to simulate the SARS-CoV-2 pandemic by probing different scenarios based on known coronavirus b

122 Probing different structures of Oct4-nucleosome complexe

123 the FrA, thus providing a new framework for probing discriminative learning and related disorders.

124 belling as a minimally perturbing method for probing DNA conformation.

125 Our work validates the use of RU.521 for probing DNA-induced innate immune responses and undersco

126 We used DNA-stable isotope probing (DNA-SIP) and classical enrichment to be informe

127 DNA-stable isotope probing (DNA-SIP) links microorganisms to their in-situ

128 mental stroke and patients by ischemic blood probing during the hyperacute stage of vascular occlusio

129 I) monomers enables a detailed spectroscopic probing during the supramolecular block copolymerization

130 We address this question by probing electroencephalography recordings from healthy h

131 Probing epigenetic features on DNA has tremendous potent

132 rmed microsecond sequential XPCS experiments probing equilibrium and nonequilibrium diffusion dynamic

133 lding using the RING-MaP correlated chemical probing framework.

134 hlighted the importance of large samples for probing functional brain circuit development.

135 red (IR) and Raman, have great potential for probing functional groups in single particles at ambient

136 to DNA origami folding, it is well-suited to probing fundamental processes in related self-assembling

137 molecular recording and virtual staining by probing fundamental vibrational modes of molecular compo

138 imple and cost-effective analytical tool for probing gel transitions outside of bulk solubility limit

139 will provide a novel and powerful means for probing GluD2 ionotropic contribution to neuronal physio

140 OR = 1.98), smoking (OR = 3.51), bleeding on probing >30% sites (OR = 4.10), and the interaction betw

141 seness (dot versus line/drop) and time after probing (>=15 seconds versus <15 seconds after probing v

142 more effective, facilitating future studies probing how proteins impact cell function, using transge

143 SAR and hydroxyl radical probing identified aptamer structural elements critical

144 Probing individual chemical reactions is key to mapping

145 are one-dimensional, but newer technologies probing interactions (physical, genetic, etc.) produce q

146 We further revealed and quantified fast DNA probing interactions that last shorter than 10 ms.

147 selection of methods and molecular tools for probing interorganellar membrane contact sites.

148 pability offers unexplored possibilities for probing intriguing physics and materials science in the

149 ([Formula: see text]SR) technique ideal for probing ions dynamics in these types of energy materials

150 Probing is a safe and effective procedure.

151 Although nasolacrimal duct probing is the standard treatment for congenital nasolac

152 cterial outer membrane and set the stage for probing its interactions with the complex milieu of immu

153 Probing its magnetic properties is crucial for understan

154 ruption of symbiosis, and highlight new work probing its molecular basis.

155 We show that by pinching a glass-i.e., by probing its response to force dipoles-one can disentangl

156 ay be significantly increased by guiding the probing light beam along the channel length via multiple

157 tailed electronic structure of a molecule by probing light-matter interference nature in the quantum

158 ely, our study serves as a rich resource for probing mammalian lipid metabolism and provides opportun

159 Compared to single probing measurements, COM seems (1) more accurate in cap

160 tic development and opens up new avenues for probing meningeal lymphatic function in health and disea

161 Non-invasively probing metabolites within single live cells is highly d

162 tion of the CHIKV genome, we used a chemical probing method to define the RNA secondary structures of

163 The applied ion-probing methodology shows that ferrihydrite is a better

164 roach can be further combined with structure probing methods to expand the capability of computationa

165 al frequency combs are now commonly used for probing molecular ro-vibrational transitions throughout

166 ghlight the utility of quantitative FRET for probing multiple interactions in the plasma membrane.

167 The new MYCi provide tools for probing MYC function and serve as starting points for th

168 ortant applications of transsynaptic AAV1 in probing neural circuits are described.

169 Using standard paradigms for probing neural correlates of conscious perception, our f

170 liable alternative to current approaches for probing neural dynamics in a cocktail party scenario, as

171 le and clinically relevant model systems for probing nonclassical, ancestral neurohormone functions.

172 To develop an effective method for probing O- and N-glycosyltransfer reactions that are acc

173 tion (ATR)-FTIR spectroscopic imaging allows probing of a sample at a depth of penetration of around

174 ials science, targeted drug delivery and the probing of biological function.

175 In this study, we conducted a site-specific probing of hydration water motions and side-chain dynami

176 n spectroscopy (SORS) to enable non-invasive probing of living tissue through depths of up to 5 cm.

177 enzymatic RNA-proteomic method that enables probing of low-abundance interactions and an allelic RNA

178 he mechanical phase image enables a combined probing of mechanical material properties together with

179 ange of ages and fitness levels by molecular probing of multiple tissues before and after acute and c

180 int and c-Cbl biology, our study prompts for probing of PD-1 regulation by c-Cbl in conditions driven

181 great interest as they facilitate structural probing of protein interactions in living cells and orga

182 based click chemistry, capable of structural probing of proteins and enhancing their identifications

183 ime-resolved, single-molecule, through-space probing of RNA folding using the RING-MaP correlated che

184 re, we introduce a simple method that allows probing of the 3D structure of such systems.

185 capacity of the device might facilitate the probing of the spatiotemporal neural codes underlying be

186 ia and emotional trauma of nonsedated office probings on patients and may explore further the cost of

187 isted of observation, in-office nasolacrimal probing, or facility-based nasolacrimal probing.

188 ailed systems-level model of plant infection probing pathogen weaknesses; yet, the hierarchy of molec

189 titis regenerative therapy may aid in better probing PD reduction.

190 h with probing depth >=4 mm with bleeding on probing (PD/BOP) or with clinical attachment level >=4 m

191 Probing pH gradients during electrochemical reactions is

192 rameters (Probing Pocket Depths, Bleeding On Probing, Plaque Index) and marginal bone loss were also

193 ated with higher percentage of interproximal probing pocket depth (P = .004).

194 CP patients associated with >= 6 mm residual probing pocket depth (PPD) were included and randomly as

195 Secondary variables included probing pocket depth (PPD), bleeding on probing (BoP), g

196 Pre- and post-therapy clinical (probing pocket depth [PPD], clinical attachment level [C

197 ontrol record, probing attachment level, and probing pocket depth were assessed at the Ramfjord teeth

198 Similarly, changes in bleeding on probing, probing pocket depth, and suppuration at T2 did not diff

199 Furthermore, clinical parameters (Probing Pocket Depths, Bleeding On Probing, Plaque Index

200 e percentage of sites exhibiting bleeding on probing (primary outcome) and lower levels of plaque in

201 t baseline, at day 14 and day 42 bleeding on probing (primary outcome), gingival index, plaque contro

202 essment was performed, including bleeding on probing, probing depth, and clinical attachment level.

203 Similarly, changes in bleeding on probing, probing pocket depth, and suppuration at T2 did

204 orkflow that involves protein stable isotope probing (protein-SIP) and identification/quantification

205 Our findings open new possibilities for probing psychiatric and neurological disorders impacted

206 for purification but also improved the chip-probing quality.

207 Progress in ultrafast science allows for probing quantum superposition states with ultrashort las

208 plied Raman microscopy and deuterium isotope probing (Raman-DIP) to detect metabolic active ARB (MA-A

209 communities using single-cell stable isotope probing, Raman-activated cell sorting and mini-metagenom

210 By probing recent high-resolution structures in the context

211 aradigm gap between rodent and human studies probing reconsolidation of hippocampus-dependent memorie

212 characterizing the structure of the macula, probing retina signaling pathways, and conducting experi

213 Stable-isotope probing revealed (13)CO(2) fixation into cellular biomas

214 ylation analyzed by primer extension (SHAPE) probing revealed that the MTE is a distinct variant of t

215 Structural probing revealed that the RNA binds amino-tSS about 100-

216 Such strains will be of value in probing rotavirus biology and pathogenesis by live cell

217 ee choice, and in previously published tasks probing saccadic control, is likely due to increased loa

218 orescent dyes (VSDs) are important tools for probing signal transduction in neurons and other excitab

219 positive correlation with CAL gain in >=7 mm probing sites.

220 ed with gold standard clinical examinations (probing six sites/tooth, full-mouth).

221 This facilitates probing specific interactions of surface groups present

222 al profiling (RNP-MaP), a live-cell chemical probing strategy that maps cooperative interactions amon

223 by targeted reagents with high specificity, probing structural changes at selected sites.

224 1 structure provides a blueprint for further probing structure-function relationships of NKCC1 and ot

225 ance energy transfer (FRET) spectroscopy for probing sub-millisecond conformational dynamics of prote

226 ever, do not provide comprehensive tools for probing superposition states in the emerging research ar

227 on, width of keratinized mucosa, bleeding on probing, suppuration, implant mobility, plaque index, an

228 age defects are inaccessible by most surface-probing techniques.

229 Here, we report optical probing that exploits a gold nanoparticle in a plasmonic

230 ATAC-seq has become a leading technology for probing the chromatin landscape of single and aggregated

231 that exceeds the standard quantum limit for probing the collective spin of 10(11) rubidium atoms con

232 Probing the consequence of biased signaling on platelet

233 imeric tyrosine-rich glycopeptide system for probing the corresponding hydrogelating behavior under t

234 ermore show the utility of the technique for probing the cyclization of non-natural GPA peptides by t

235 tons in TPA process plays a critical role in probing the detailed electronic structure of a molecule

236 cent deep mutational scanning (DMS) datasets probing the effects of single amino acid variation on en

237 racene isomer (C(22) H(14) ) is unraveled by probing the elementary reaction of the 2-tetracenyl radi

238 potential to serve as a powerful medium for probing the etiology of developmental disorders associat

239 This feature enables probing the excited crystal, using the powerful Bragg pe

240 Probing the force-dependent lifetime of biotin-streptavi

241 ral inactivation tool with broad utility for probing the functional contributions of cortical activit

242 emission spectroscopy is a powerful tool for probing the fundamental chiroptical features of opticall

243 ntial contribution if the ambitious goals of probing the human proteome are to be realized in the for

244 However, probing the interactions of surface-bound intermediates

245 However, probing the interplay between charge distribution, grain

246 cancer invasion in 3D microenvironments and probing the invasive cell subpopulations.

247 sample quality and poor electrical contact, probing the lowest LLs has been challenging, and observa

248 studied the onset of the resonance regime by probing the lowest-lying resonance dominated by s and p

249 pe tracing has become an invaluable tool for probing the metabolism of biological systems.

250 ire graphene, and suggests a way of directly probing the microscopic mechanisms of superconductivity

251 provide strong candidates for experimentally probing the molecular basis of synaptic pathology in sch

252 permathecal lineage is an exciting model for probing the molecular mechanisms that modulate the Notch

253 tron momentum distributions shows the way of probing the molecular potential in real-time, and access

254 as tractable and transplantable systems for probing the molecular properties of PDAC, these models m

255 Probing the neural mechanisms by which features become b

256 While probing the nucleobase determinants of 5mC recognition,

257 Probing the phenotypic consequences of differential earl

258 ights the high level of detail achievable in probing the photodynamics of nanosystems using tunable X

259 Probing the physicochemical characteristics of an acidic

260 Both materials are of interest for probing the properties of a 1D system with strong spin-o

261 ort-wavelength surface acoustic waves(4-10), probing the properties of the atom at only a single freq

262 Probing the reactivity of substituted phenols toward the

263 Probing the role of surface structure in electrostatic i

264 Methods for probing the spatial distribution of the proteome have ge

265 (XAS) has become an indispensable method for probing the structure and composition of heterogeneous c

266 fast vibrational fingerprinting approach for probing the structure and interactions of chromophores i

267 erium exchange (gHDX), MS is also capable of probing the structure of ions.

268 e examples to demonstrate recent advances in probing the structure of proteins at the interfaces of l

269 rising in view of the challenges involved in probing the structure of proteins within monomolecular f

270 By probing the structure, dynamics and membrane topology of

271 Herein, the findings in probing the working mechanism of the K-ion storage in Se

272 uli in the absence of reward contingency and probing their effects on the processing of separate targ

273 However, tangible progress in probing their fundamental properties and/or their integr

274 Even if constructed, probing their intricate linkages and topological "drumhe

275 By probing their relationship with AP complexes, we find th

276 Probing their responsive behavior in situ is a challengi

277 cure due to a lack of experimental tools for probing these pathways at the molecular level.

278 By probing these states, we investigate the topological nat

279 Probing this composition is powerful because it provides

280 Probing this signature through in vivo CRISPR screening,

281 Here, by probing thousands of publicly available metagenomes for

282 Chemical sensitivity analysis (CSA) is a new probing tool for sampling sensitivities to chemistry par

283 Thus, nanoparticles represent unique probing tools for discovery of molecular targets for dis

284 The substrate was used for probing toxicological effect of herbicide atrazine on th

285 nanoseconds enables critical capabilities of probing ultra-fast phenomena in condensed matter systems

286 s and disadvantages in their application for probing UPR function.

287 cing (PORE-cupine), which combines structure probing using chemical modifications with direct long-re

288 time, and are compatible with stable isotope probing using Raman.

289 obing (>=15 seconds versus <15 seconds after probing versus spontaneous).

290 meters, including probing depth, bleeding on probing, visual inspection, and radiographic bone loss.

291 The success rate of the initial probing was 87.2% for all children and it was shown that

292 d ion quantum information processing and for probing weak coherent optical transitions.

293 isit whereas IPD, recession, and bleeding on probing were assessed at 8, 12, 16, 24 week.

294 , clinical attachment level, and bleeding on probing were evaluated through a full-mouth periodontal

295 Success rates for in-office probing were lower for bilateral than for unilateral NLD

296 mount of keratinized tissue, and bleeding on probing were obtained.

297 e plasma created from bulk samples for which probing with Bragg diffraction technique is not possible

298 Hybridization assays and enzymatic probing with RNases illuminated how RNA binding specific

299 Single-molecule, time-resolved RNA structure probing with TMO is poised to reveal a wide range of dyn

300 with a ratiometric extracellular zinc sensor probing zinc release, supported that Z-LTD is expressed,