ライフサイエンスコーパス: turbidity

1 2 for MicroScan Prompt, and 25 for MicroScan turbidity).

2 erious effects of scattering and absorption (turbidity).

3 e.g., water column stratification, nearshore turbidity).

4 mission spectroscopy (optical absorption and turbidity).

5 an easily measurable environmental variable (turbidity).

6 cal plane, the local cell concentration, and turbidity.

7 limited penetration depth imposed by tissue turbidity.

8 ts attained maximum values at 60% of maximum turbidity.

9 growth reached a plateau at the same time as turbidity.

10 .0001), as expected from the decreased final turbidity.

11 of lateral aggregation, and decreased final turbidity.

12 e progress of assembly is monitored by using turbidity.

13 e is approximately 12 s(-1) as determined by turbidity.

14 rmation, as shown by an impaired increase in turbidity.

15 mal, but reached a significantly lower final turbidity.

16 recombinant fibrinogen, but a similar final turbidity.

17 ximately 45 s-1 as determined by decrease in turbidity.

18 duced viscosity and increased cloudiness and turbidity.

19 y and colour intensity, and the reduction in turbidity.

20 lted in an approximately 10-fold decrease in turbidity.

21 ions showed significant increases in MDD and turbidity.

22 hich caused protein aggregation and solution turbidity.

23 In clear water at low turbidity (0.1-0.5 NTU), peaks in the magnitude and dura

24 al combinations of latitude (0-70 degrees ), turbidity (0.1-5 NTU) and cloud cover (clear to overcast

25 later in time than those detected either by turbidity (1560 s) or by Phe signal intensity (1680 s),

26 t 1:1-2:1 RProt:HMP, BNPs showed appreciable turbidity, a nanometric diameter (337-364 nm), and a neg

27 e concept of a novel implantable fiber-optic Turbidity Affinity Sensor (TAS) and report on the findin

28 At higher concentrations of protein, turbidity after CALI increased significantly indicating

29 erging sensors for nutrients, dissolved CO2, turbidity, algal pigments, and dissolved organic matter

30 n, sedimentology, and benthic boundary layer turbidity, all appear to be consistent with topographica

31 urbidities, we show that the fluctuations in turbidity alone causes curved effects which can only be

32 uld be predicted by a linear regression with turbidity alone.

33 The wavelength dependence of the turbidity along the time course is analyzed to search fo

34 tistical models as well as surrogates (e.g., turbidity) also needs to be re-examined because the hydr

35 Turbidity analysis allowed to determine specific conditi

36 res and piscivores across a natural range of turbidities and cloud covers.

37 employs physical tissue models with varying turbidities and randomized concentrations of Raman scatt

38 rocess time (30-90 min) and their effects on turbidity and a( *) values were investigated.

39 ted and vinblastine-induced samples promotes turbidity and addition of seeds made from vinblastine po

40 Positive associations between drinking-water turbidity and AGI incidence were found in different citi

41 Changes in riparian vegetation or water turbidity and browning in streams alter the local light

42 onomers from repolymerizing were compared in turbidity and clottability assays.

43 ced by the interaction between light regime, turbidity and cloud cover over a broad latitudinal gradi

44 osystems changes considerably with latitude, turbidity and cloud cover.

45 Then zeta-potential (mV), turbidity and coacervate yield (%) were measured and opt

46 s B1 and B2 concentrations and a decrease on turbidity and concentration of catechins.

47 (2+) were investigated through fluorescence, turbidity and conductivity experiments.

48 In this study, turbidity and confocal reflectance microscopy (CRM) were

49 The likely cause of enhanced clot turbidity and delay in fibrinolysis was revealed by a cr

50 eir transition temperatures as determined by turbidity and differential scanning calorimetry studies.

51 affected emulsion thermo-reversibility: the turbidity and droplet size after heating above the PIT d

52 nvironmental sensitivity was demonstrated by turbidity and dynamic light scattering as a function of

53 mpact filter performance with respect to (i) turbidity and E. coli removal or (ii) effluent levels of

54 d E. coli removal or (ii) effluent levels of turbidity and E. coli.

55 undance of enterococci in the water, as both turbidity and enterococci were elevated during ebb and f

56 cles evidenced by the reversible increase in turbidity and further confirmed in detail by electron mi

57 ased on simultaneous measurement of cellular turbidity and hemoglobin.

58 ply was first turned on, water with elevated turbidity and high concentrations of indicator bacteria

59 bidity were good predictors of ECVG, whereas turbidity and human-specific Bacteroidales were good pre

60 cattering levels to determine impact of both turbidity and illumination frequency on two SIM metrics,

61 0.2% PL and 0.03% GA and no salt had higher turbidity and increased formation of precipitates showin

62 vated levels of dissolved organic matter and turbidity and low levels of dissolved inorganic nitrogen

63 to prepare the bacterial inoculum (MicroScan turbidity and MicroScan Prompt).

64 Among the samples studied, pH, turbidity and mineral contents for OMC water was the hig

65 Increases in turbidity and particle counts after backwashes indicated

66 Turbidity and particle size measurements indicated that

67 ed formation of precipitates showing greater turbidity and particle sizes.

68 d in the presence of polyP exhibited reduced turbidity and permeability indicative of a tighter fibri

69 ed using plasma from FXIII 34Leu subjects by turbidity and permeability measurements showed reduced f

70 Real-time measurements of turbidity and pH were used to investigate the dynamics o

71 IB concentrations and increases in surf zone turbidity and silicate, phosphate, and dissolved inorgan

72 occurs, as evidenced by sudden increases in turbidity and size and enhancement of Forster resonance

73 We use advanced microscopy along with turbidity and spectroscopic measurements to investigate

74 rmal denaturation than GCPI as determined by turbidity and sulphydryl groups resulting in greater los

75 The turbidity and the rate of gamma-gamma dimer formation fo

76 rtionality relationship between the observed turbidity and the weight concentration of polymerized tu

77 than at high pH (8.8 +/- 0.3), as judged by turbidity and thioflavine-T fluorescence studies.

78 S, where there was a strong coupling between turbidity and tidal fluctuations.

79 ctin substances which is responsible for the turbidity and undesirable cloudiness in fruits juices.

80 ucing sugars content and markedly decreasing turbidity and viscosity.

81 Turbidity and zeta-potential measurements indicated that

82 environmental conditions (e.g., biofouling, turbidity) and carbon-specific conditions (e.g., wide di

83 f LDL fusion revealed by near-UV/visible CD, turbidity, and calorimetry indicates high reaction order

84 al-resolution (2.6 x 2.6 m) distributions of turbidity, and dissolved organic carbon (DOC) and chloro

85 orimetric, circular dichroism, fluorescence, turbidity, and electron microscopic data shows that ther

86 nalyzed polymerization, following changes in turbidity, and found that polymerization of A'beta fibri

87 itical stress thresholds of e.g. water flow, turbidity, and O2 conditions in the water phase.

88 Permeation, turbidity, and scanning electron microscopy showed that

89 he seafloor, unaccompanied by temperature or turbidity anomalies, indicating low-temperature hydrothe

90 ty, titratable acidity, cloud assessment and turbidity), antioxidant compounds and activity (total ph

91 a centrifugation/filtration step to decrease turbidity are not required, thus reducing costs and samp

92 ies of other fibril-forming systems that use turbidity as a marker of polymerization progress.

93 ointestinal illness; however, the utility of turbidity as a proxy exposure measure has been questione

94 eviate this diluting tendency and to prevent turbidity as a result of dilution, the lens must effect

95 urpose since chitosan (10.3NTU) led to lower turbidity as compared to xanthan gum (20.0 NTU).

96 A turbidity assay was also consistent with the previous ob

97 m was confirmed by the following techniques: turbidity assay, dynamic light-scattering and both confo

98 As detected in a cell-free turbidity assay, spermine promotes aggregation of thio-p

99 eract in vitro with galectins as judged by a turbidity assay.

100 In vitro turbidity assays indicated that SAMC acted directly on t

101 Turbidity assays proved the selective binding of the pol

102 In turbidity assays SAP enhanced the polymerization of lami

103 Electron microscopy and turbidity assays were used to assess myosin fragment fil

104 Using turbidity assays, time-resolved small angle X-ray scatte

105 y A11, transmission electron microscopy, and turbidity assays.

106 MR increased mean particle sizes and sample turbidity at 3<pH<10.

107 omotes tubulin polymerization as measured by turbidity at 400 nm.

108 ess curves, as measured by increasing sample turbidity at 700 nm, exhibit a delay time (t(d)) consist

109 teria cannot be monitored using conventional turbidity-based optical density measurements due to conc

110 Optimal enhancement of fibrin clot turbidity by polyphosphate required >/= 250mers.

111 In this contribution, turbidity, calorimetry, and 31P-NMR concur in showing th

112 Insoluble proteins or proteins resulting in turbidity can be analyzed following partial hydrolysis o

113 mal gradients cause the most distortions and turbidity causes the most loss.

114 change in the optical signals caused by the turbidity change associated with a positive amplificatio

115 Due to the large signal amplitude of the turbidity change, and the lack of need for wavelength-sp

116 yristoyl phosphatidylcholine (DMPC) liposome turbidity clearance kinetics and palmitoyloleoyl phospha

117 Lipid binding, as measured by turbidity clearance of unilamellar vesicles of DMPC, is

118 merization of this variant by examining clot turbidity, clot structure, and the rate of FXIIIa cross-

119 ions and the quality characteristics such as turbidity, colour characteristics (L( *), a( *), b( *),

120 Using immunohistochemistry, turbidity, confocal microscopy, and elastometry of clots

121 idity increase that is much greater than the turbidity contribution by the individual components.

122 sent a novel analytical method, that we call turbidity-corrected Raman spectroscopy (TCRS), which is

123 prediction error is obtained by applying the turbidity correction procedure to the observed Raman spe

124 ed visual endpoint of "prominent decrease in turbidity." Correlation was generally better after 24 h

125 n deposits of a more dilute flow type called turbidity current.

126 by flow transformation from the decelerating turbidity current.

127 n is a result of dynamic interaction between turbidity currents and the evolving seafloor.

128 similarity between natural and experimental turbidity currents.

129 lysis, which permits valid interpretation of turbidity data for distributions of microtubules that ar

130 Circular dichroism and turbidity data reveal an irreversible heat-induced VLDL

131 Arrhenius analysis of the turbidity data reveals two kinetic phases with Ea = 53 +

132 ts the FDA-defined AST criteria, with a well-turbidity detection accuracy of 98.21%, minimum-inhibito

133 ables; total intensity in CRM images tracked turbidity development closely for all collagen gels inve

134 tubulin, but it caused a marked increase in turbidity development that more closely resembled the ef

135 n that its formation was not associated with turbidity development, and the morphology of the hemiast

136 was present, and the majority of increasing turbidity during collagen self-assembly was due to incre

137 The rate of sedimentation, the decline of turbidity during time, the absorbance at 420 nm, the GRP

138 through physical burial as well as indirect turbidity effects.

139 Dynamic light scattering and turbidity experiments confirmed the presence of higher o

140 Turbidity experiments demonstrated that DMB changed poly

141 Turbidity experiments indicate that the triple helical p

142 uggests that a reduction of US-EPA allowable turbidity from 29 Nephelometric Turbidity Units (NTU) ab

143 concrete BSFs for the removal of E. coli and turbidity from drinking water.

144 lation of the time- and wavelength-dependent turbidity generated by the calculated distribution of ro

145 The anion-induced decrease in turbidity generation is reflected in the amount of tubul

146 Conversely, at turbidities >/= 2 NTU, greater reductions in the visual

147 nce of polyphosphate had up to 3-fold higher turbidity, had higher mass-length ratios, and exhibited

148 centration of Raman scatterers but different turbidities has a tendency to collapse onto a single spe

149 Turbidity has been used as an indicator of microbiologic

150 These beers were also characterized by lower turbidity, high color intensity, caramel- and coffee-lik

151 lastine polymers leads to rapid increases in turbidity in a concentration-dependent manner.

152 g slowed exponential-phase growth, increased turbidity in stationary phase, and increased colony opac

153 propose that isothermal mixing and elevated turbidity in the absence of ice cover resulted in light

154 The mechanism of modulation of bulk turbidity in the sensor is based on glucose-specific aff

155 Sephadex particles results in a significant turbidity increase that is much greater than the turbidi

156 Emulsion turbidity increased with increasing mean droplet diamete

157 reveal a reduced lag period and lower final turbidity, indicating more rapid initial polymerization

158 the gas-phase, neither sample coloration nor turbidity interfere.

159 High turbidity is a hallmark of membrane protein crystallizat

160 ive of changes to the mineral system and the turbidity is a measure of alterations to the casein mice

161 ffect on grape phenolics, brown pigments and turbidity is comparable and/or better than that detected

162 of certain positively charged peptides, the turbidity is enhanced and fibrinolysis is delayed.

163 vidence for a stronger association at higher turbidity levels.

164 Turbidity loss rate was low demonstrating the good stabi

165 bility and viscosity, minimum particle size, turbidity loss rate, size index and peroxide value chang

166 16.65 for particle size, emulsion stability, turbidity loss rate, size index, viscosity and peroxide

167 cts, hemoglobin interferences, and minimized turbidity), low volume plasma requirement (3 muL), and t

168 es for sediment resuspension than OC in high turbidity marginal seas because REEs do not appear to un

169 own as either a monotonic spatial shape or a turbidity maximum.

170 ift" in typology with increased frequency of Turbidity-Maximum types before and after Hurricane Ivan

171 refer to as Injection, Transport, Temporary Turbidity-Maximum, and Persistent Turbidity-Maximum.

172 Temporary Turbidity-Maximum, and Persistent Turbidity-Maximum.

173 In addition, high turbidity may interact antagonistically with other distu

174 At least 1 M KCl is needed to observe the turbidity-measurable aggregation at pH 8, and the relati

175 It was found that in situ turbidity measured in a scanning transmittance configura

176 fair consistency in the notable lags between turbidity measurement and AGI identification, which fell

177 d by isothermal titration calorimetry (ITC), turbidity measurement, dynamic light scattering and zeta

178 Collagen turbidity measurements and biochemical assays indicated

179 - and batroxobin-catalyzed polymerization by turbidity measurements and found that BbetaE397A and Bbe

180 l transition temperatures were determined by turbidity measurements and were found to be dependent on

181 nd thermodynamic properties were analyzed by turbidity measurements at different LA/OVA monomer molar

182 Also, turbidity measurements confirm substantial differences i

183 Turbidity measurements have long been the method of choi

184 Complementary CRM, CFM, and in situ turbidity measurements revealed that fibril and network

185 Equilibrium dialysis and turbidity measurements showed that D244G and, to a lesse

186 uration was interchangeable with traditional turbidity measurements using a spectrophotometer.

187 Turbidity measurements via absorbance monitoring at 320

188 hat this aggregation is not observable using turbidity measurements, a common technique for assessing

189 Vesicle growth was probed by turbidity measurements, quasi-elastic light scattering,

190 tion rate is readily quantified from optical turbidity measurements.

191 examined using dynamic light scattering and turbidity measurements.

192 s approximations such as those necessary for turbidity measurements.

193 scopy, transmission electron microscopy, and turbidity measurements.

194 progress curves similar to those obtained by turbidity measurements.

195 tion of nanogel stimuli-responsivity through turbidity measurements.

196 arides and oligosaccharides was tested using turbidity measurements.

197 the Phoenix system (66.2%) and the MicroScan turbidity method (61.8%), followed by the Vitek 2 system

198 Finally, we show that the turbidity method can be applied to the study of other GS

199 We now present a simple solution-based turbidity method for rapidly assaying membrane associati

200 The turbidity method has inherent problems that hinder its a

201 32 (pH 3.5), and then micro-electrophoresis, turbidity, microscopy, and isothermal titration calorime

202 The findings were corroborated by changes in turbidity, morphology, and protease sensitivity.

203 2 degrees C, we observed a rapid increase in turbidity most likely caused by formation of homotrimer

204 Surprisingly, turbidity, near-UV circular dichroism, and electron micr

205 All filters produced effluents with a mean turbidity of <0.6 nephelometric turbidity unit.

206 nanoemulsion with smallest MDD of 69 nm and turbidity of 102 NTU at 0.05% of dispersed phase.

207 The turbidity of batroxobin-induced clots, which are charact

208 In presence of salts F-T stability and turbidity of both modified starches improved and CaCl2 c

209 of proteins was associated with a decreasing turbidity of cultures and loss of bacterial viability, i

210 iological studies of the association between turbidity of drinking-water supplies and incidence of ac

211 nce of the beta chain of fibrin increase the turbidity of fibrin clots, whether they are generated by

212 The Freeze-thaw (F-T) stability and turbidity of GCWS were also higher than PG starch.

213 Turbidity of heated mixtures and associated sizes of for

214 od can be applied in situations where a high turbidity of layers prevents the deployment of conventio

215 The turbidity of most biologic tissues hinders the use of la

216 panying parameters, especially the very high turbidity of one ethylene propylene diene monomer rubber

217 Turbidity of the broth indicated bacterial leakage.

218 olution was determined by the observation of turbidity of the broth.

219 ent changes induced in the degree of optical turbidity of the sensing element can be accurately monit

220 ent of polymerization is proportional to the turbidity of the solution, which usually has been measur

221 on microscopy, cohesiveness, consistency and turbidity of the starch gels reduced while their syneres

222 The turbidity of the TAS was measured by determining the int

223 Reducing the turbidity of the test inoculum to that of a no. 3 McFarl

224 lucose-specific changes in light scattering (turbidity) of a hydrogel suspension consisting of small

225 specific changes induced in bulk scattering (turbidity) of the sensor.

226 erature and sedimentation (concentration and turbidity) on the survival of coral recruits of the spec

227 ion will be swept to the gas phase (avoiding turbidity or color in spectrophotometric methods), and (

228 to 30 degrees C did not appreciably increase turbidity or droplet diameter (d approximately 50 nm), s

229 c activities resulting in elevated levels of turbidity, organic matter, and metals have opened a nich

230 canning and isothermal storage conditions on turbidity, particle size, and thermal reversibility of v

231 Changes in quality characteristics such as turbidity, pH, acidity, color, total monomeric anthocyan

232 atures, from highly diluted blackwaters (low turbidity, pH, conductivity, and total alkalinity) in ra

233 The combined spatial extent of observed turbidity plumes for island building activities at Misch

234 ies, as well as to assess resulting in-water turbidity plumes.

235 vel (r = 0.45) and positive correlation with turbidity (r = 0.65).

236 lled as SBA-15 and MCM-41 provided a notable turbidity reduction and prevent protein haze as was demo

237 ctrophotometric endpoint of 50% reduction in turbidity relative to the growth control correlated most

238 ed breakthrough of NPs into treated water by turbidity removal and inductively coupled plasma-mass sp

239 ally measured by alternative methods such as turbidity, rheology, and microscopy.

240 ce spectroscopy, ANS extrinsic fluorescence, turbidity, right angle static light scattering, and anal

241 it is feasible to develop an affinity-based turbidity sensor that can exhibit a highly specific opti

242 The pH and turbidity showed that alterations to both the casein mic

243 ng at 80 degrees C, with negligible solution turbidity, showing potential for the production of diges

244 tionships between STEC cell numbers and LAMP turbidity signals.

245 at is pelletable, but even in the absence of turbidity significant pelletable tubulin persists which

246 e test inoculum to that of a no. 3 McFarland turbidity standard, which is below that recommended by t

247 Turbidity studies of polymerization of purified fibrinog

248 d Congo Red (CR) binding assays coupled with turbidity studies reveal that this aldehyde-induced aggr

249 Turbidity studies showed no evidence of fibrin polymeriz

250 al light modulator (SLM), we demonstrate its turbidity-suppression capability by reconstructing the i

251 ring heating from 20 to 75 degrees C, higher turbidity, surface hydrophobicity and disulphide bond fo

252 tructure, crystallinity, Raman spectrometry, turbidity, swelling power, solubility, pasting propertie

253 Turbidity, temperature, tidal movement, and wave action

254 90 degrees C), emulsions exhibited a complex turbidity-temperature profile with a phase inversion tem

255 duces thick fibrin fibers, elicited a higher turbidity than clottability inhibition.

256 sium pyrophosphate, which caused a change in turbidity that could be seen by the naked eye.

257 to reveal the structures responsible for the turbidity that develops during collagen self-assembly.

258 teins underwent a salt-dependent increase in turbidity that may be indicative of nonspecific interact

259 ids were the most effective in reducing OSPW turbidity, the application of cationic coagulant aids pr

260 se peptides bind to fibrin(ogen) and enhance turbidity, the delay in lysis is mainly due to direct in

261 oling appreciably increased droplet size and turbidity (thermo-irreversible).

262 wed 41%, 46% and 53% respective reduction in turbidity till 150min treatment.

263 This process has been followed by turbidity to identify transthyretin amyloidogenesis inhi

264 the experimental practice of using solution turbidity to study the polymerization kinetics of microt

265 ecasting models of odor using chlorophyll a, turbidity, total phosphorus, temperature, and the follow

266 ication and tested it in shrimp ponds having turbidities typical of those in southern Taiwan.

267 with a mean turbidity of <0.6 nephelometric turbidity unit.

268 PA allowable turbidity from 29 Nephelometric Turbidity Units (NTU) above background to less than 7 NT

269 ar, at a concentration of 4000 nephelometric turbidity units) and was measured with a straylight mete

270 he permeate turbidity was <0.1 nephelometric turbidity units.

271 to values from -10 to +10%) and the extract turbidity (up to 95%).

272 The lowest turbidity value after 110 days of storage at 20 degrees

273 Polymeric colour and turbidity values increased after the addition of all ext

274 cted formulation including specific gravity, turbidity, viscosity, average droplet size, span, size i

275 ting GHRP (IC30 of 1.25-1.43 mM) gave a high turbidity vs clottability inhibition ratio (137%).

276 The permeate turbidity was <0.1 nephelometric turbidity units.

277 lity of polyphosphate to enhance fibrin clot turbidity was independent of factor XIIIa activity.

278 We confirmed that turbidity was indicative of fiber thickness by scanning

279 luorescence intensity, was less than 25% and turbidity was less than 15% of the maximum values of the

280 colloids were mobilized and a sharp spike in turbidity was observed.

281 Effluent turbidity was positively correlated (p </= 0.05) with Al

282 etwork formation occurred before substantial turbidity was present, and the majority of increasing tu

283 higher the pore size the higher the effluent turbidity" was verified.

284 nding to deoxy-HbS while reduced scattering (turbidity) was attributed to melting (depolymerization)

285 static light scattering at 90 degrees and by turbidity, was not observed until further additions of p

286 estigate the degrading effects of scattering/turbidity, water current, and thermal gradient-induced t

287 s of the experimental time dependence of the turbidity wavelength exponent for microtubule formation

288 andomized analyte concentrations and varying turbidities, we show that the fluctuations in turbidity

289 MD30, Etest, MicroScan Prompt, and MicroScan turbidity were 63%, 63%, 63%, and 56%, respectively, for

290 Major volatile compounds, polyols and turbidity were analyzed in fined wines and the results w

291 ter column anomalies in E(h), temperature or turbidity were detected.

292 Fecal indicator bacteria and turbidity were good predictors of ECVG, whereas turbidit

293 opigment sources on anthocyanins, colour and turbidity were investigated during storage at -20, 4 and

294 environmental factors (water temperature and turbidity) were not the reasons for different toxin prod

295 identified locations where consistently high turbidity will likely reduce irradiance to <250 mumol m(

296 Our model predicts that turbidity will mitigate high temperature bleaching for 9

297 Our model also predicted that turbidity will protect some coral species more than othe

298 Combining turbidity with seasonal and climatic factors, additional

299 to a server to automatically determine well-turbidity, with results returned to the smartphone in ~1

300 In the maximum turbidity zone (suspended solids up to 2600 mg L(-1)), t