ライフサイエンスコーパス: dynamic range

1 ows continuous stimulus sampling over a wide dynamic range.

2 transmodal axis and dominated by measures of dynamic range.

3 th bovine serum albumin (BSA) over a 10-fold dynamic range.

4 ength and unbinding pathways over the widest dynamic range.

5 scale silicon-chip-based sensor with >120 dB dynamic range.

6 ected TGTs can be tuned to achieve different dynamic range.

7 nse time, strong signal response, and a high dynamic range.

8 non-toxic reporting system with a much wider dynamic range.

9 nds, limited analytical throughput, and wide dynamic range.

10 -to-noise ratio, rise and decay kinetics and dynamic range.

11 etylation levels were quantified over a high dynamic range.

12 flexible and robust performance over a wide dynamic range.

13 ked neuronal network activity maximizing its dynamic range.

14 lytica and Pasteurella multocida over a wide dynamic range.

15 limit of detection, sensing resolution, and dynamic range.

16 rturbations occurring within a physiological dynamic range.

17 the analytical limit of detection (LOD) and dynamic range.

18 nsitivity, specificity, accuracy, and linear dynamic range.

19 cting cTnT and cTnI in human serum with wide dynamic range.

20 preserving method accuracy, specificity, and dynamic range.

21 h artifacts while preserving sensitivity and dynamic range.

22 reaction times, low sensitivity, and narrow dynamic range.

23 uantification of CD4(+) T cells with greater dynamic range.

24 First, it squares the measurement dynamic range.

25 olic cardiac image contrast below 30% of the dynamic range.

26 igh mass resolving power, mass accuracy, and dynamic range.

27 ly identical response functions and 400-fold dynamic range.

28 mass measurement accuracy, and mass spectral dynamic range.

29 o evaluate and discuss 3DI's performance and dynamic range.

30 , and hence multi-input regulation with high dynamic ranges.

31 thogonal reporters that can assay over large dynamic ranges.

32 A, while providing greater sensitivities and dynamic ranges.

33 k inhibition is recruited steeply with a low dynamic range (0% to 4% of active GCs), and with a non-u

34 fective path length of the flow cell, a wide dynamic range (0.5 to 200 mug/mL for sulfamethazine, car

35 al/ Hz, and measurement over the full +/-1 g dynamic range (1 g = 9.81 ms(-2)).

36 tection 10(2) colony forming unit/ml, linear dynamic range 10(2)-10(7) colony forming unit/ml under p

37 Under optimal conditions, a broad dynamic range (10 pM to 2 muM) with an excellent detecti

38 eins with concentrations spanning an extreme dynamic range (10(10)).

39 edox probe, the sensor exhibited a very wide dynamic range (13.33 nM-66.67 muM), with an estimated de

40 quantification (2.3-4.0 ug l(-1)) and linear dynamic range (2.0-1000.0 ug l(-1)) were obtained.

41 , limit of detection (75-119 ng.mL(-1)), and dynamic range (300-1600 ng.mL(-1)) are independent of th

42 The H(2)S optosensor exhibits a 0.34-50 ppmv dynamic range, a limit of detection equal to 0.025 ppmv,

43 Using this method, we observed that the dynamic range across proteins in the HCP samples was sig

44 Because neural dynamic range adaptation depends on stimulus-level stati

45 ons from various sensory regions demonstrate dynamic range adaptation in response to changes in the s

46 Our results demonstrate that dynamic range adaptation is neither limited to sensory r

47 uggest that noise adaptation reflects neural dynamic range adaptation to the most frequent noise leve

48 h recognition is probably mediated by neural dynamic range adaptation to the most frequent sound leve

49 erizing five distinct properties of dLight1: dynamic range, affinity, molecular specificity, kinetics

50 cro-C exhibits an order of magnitude greater dynamic range, allowing the identification of ~20,000 ad

51 lysis is the relationship between a sensor's dynamic range and a background: the response range must

52 the biosensor performs reliably, with a wide dynamic range and a proportional response at different p

53 l properties of fluorescent probes limit the dynamic range and accuracy of measurements of off rates

54 The dynamic range and accuracy of quantitation, however, can

55 similar dark currents, hence showing better dynamic range and detectivity, and similar sub-nanosecon

56 remarkably high sensitivity, extremely wide dynamic range and excellent controllability.

57 peripheral (C and Adelta) and central (wide dynamic range and high-threshold) trigeminovascular neur

58 red to microarrays, as they have an expanded dynamic range and identify more true positives.

59 , characteristic for an IDP, but also a high dynamic range and increasing rigidity from the N to C te

60 r has been evaluated using EIS, where linear dynamic range and limit of detection were obtained to be

61 he extent to which this parameter constrains dynamic range and limit of detection.

62 100%, precision below 17%, as well as linear dynamic range and limits of quantitation suitable for de

63 The dynamic range and linearity of the refractive index are

64 sting a greater number of sites with a broad dynamic range and modified to study other RNA modificati

65 ce-level features, as well as differences in dynamic range and reproducibility.

66 We show that scFLARE has greater dynamic range and robustness than first-generation FLARE

67 The model shows that the linear dynamic range and sensitivity of the EBFC-based sensor c

68 at contributes to the auditory system's wide dynamic range and sharp frequency selectivity.

69 Although improved dynamic range and slightly reduced mass spectral complex

70 plete, especially for stimuli with the large dynamic range and strong temporal and spatial correlatio

71 icrofluidic analytical technique with a high dynamic range and therefore is suited well to measuring

72 were used to estimate measurement error and dynamic range and to examine the effects of the total vo

73 ve rich diversity of gene expression levels, dynamic ranges and ligand sensitivities and were 50- to

74 ofiles with its exquisite sensitivity, large dynamic range, and ability to characterize hundreds to t

75 the functional state of host immunity, lack dynamic range, and are more reflective of molecular proc

76 ue their ease of use, high reliability, wide dynamic range, and availability of a large variety of sp

77 ivity of trigeminovascular Adelta-, C-, wide-dynamic range, and high-threshold neurons in male and fe

78 , 50%, 68%, and 39% of the Adelta-, C-, wide-dynamic range, and high-threshold neurons, respectively.

79 r response times, fully tunable and enhanced dynamic range, and improved in silico feedback control o

80 expression levels with low background, large dynamic range, and in a reversible manner without detect

81 hibition (EI) balance controls excitability, dynamic range, and input gating in many brain circuits.

82 work, we have characterized the sensitivity, dynamic range, and quantification accuracy of Polymerase

83 h gradient-based separations, have a limited dynamic range, and require extended thermal equilibratio

84 t faces limitations concerning multiplexing, dynamic range, and the required multiple washing steps b

85 on the selectivity, sensitivity, precision, dynamic ranges, and temperature dependence of such senso

86 ectrometry (IMS), the limit of detection and dynamic range are of paramount importance in obtaining e

87 led to the same detection limits and linear dynamic range as in the cholesterol standard.

88 rget specificity and the ability to tune the dynamic range, as well as encapsulation of multiple dyes

89 port a Ca(2+) desensitization and a narrowed dynamic range at higher temperatures in murine M. extens

90 ive data in terms of limits of detection and dynamic range, at the cost of a substantial compromise i

91 The dynamic range-based normalized rates of vessel density a

92 sors are able to measure PSA in serum with a dynamic range between 0.26 and 62.5 ng/mL (PSAG-1) and f

93 his sensor can detect gliadin in DES, with a dynamic range between 1 and 100 mug/L and an intra-assay

94 cal impedance spectroscopy, showing a linear dynamic range between 3.3 x 10(-4) and 10(-7) g L(-1) an

95 ased methods are still hindered by the large dynamic range between high abundance biopharmaceutical p

96 g the same molecule multiple times increases dynamic range but significantly diminishes coverage, mak

97 ing system output amplitude by >130-fold and dynamic range by >70-fold, and mitigating host growth in

98 ty-adjusted IDW increased the unadjusted IDW dynamic range by a factor of 19 and distinguishes high-i

99 r antagonistic actions are balanced within a dynamic range by nutritional effects on TBH.

100 tofluorescence-free detection, and increased dynamic range by real-time monitoring of in situ RCA.

101 m), highlighting that our method reduces the dynamic range by removing antibody interference and impr

102 form to create dual-FP biosensors with large dynamic ranges by employing a single FP-cassette, named

103 A pressure-sensor matrix (PSM) with full dynamic range can accurately detect and spatially map pr

104 ed and has good selectivity; sensitivity and dynamic range can be tuned by controlling droplet size.

105 in and (2) spontaneous firing of spinal wide dynamic range cells.

106 ided slightly higher detectability and wider dynamic ranges, CL-based biosensors appear more suitable

107 molecular detail, accuracy, sensitivity, and dynamic range combined in a 21T MALDI FT-ICR MSI experim

108 s not suffer from precursor interference and dynamic range compression, providing excellent accuracy

109 The dynamic range covers the whole range of clinically relev

110 show that during adversity, pup cortical LFP dynamic range decreased during nurturing maternal behavi

111 nput to high-threshold neurons, but not wide dynamic-range dorsal horn neurons, and why it may not be

112 TR RR spectroscopic methods can cover a wide dynamic range down to the femtosecond time regime and ha

113 of low intensity signals, but has a limited dynamic range due to pulse overlap.

114 via dielectric spectroscopy and in situ high-dynamic-range electron diffraction.

115 hase stable characteristics, we present wide dynamic range en face Doppler OCT imaging with multiple

116 lens of a Bruker FT-ICR collision cell, the dynamic range enhancement (DRE) lens of a Waters Q-IM-TO

117 B(1) and 1.0 ng/mL for fumonisin B(1), with dynamic ranges extending up to 5.0 and 50 ng/mL, respect

118 sub-zeptomole range with up to 5 log-decades dynamic range for accurate, multiplexed protein determin

119 Meanwhile, this probe showed a linear dynamic range for Cyt c from 175 to 1750 pM with a detec

120 ed LSPR absorbance detection of AuNPs with a dynamic range for diclofenac spanning from 0.01 to 10 mu

121 nsitivity (with three orders of magnitude in dynamic range for each marker).

122 The PDs exhibited a linear dynamic range for Fe(3+) from 0.1 to 2 nM with a detecti

123 luN3a-containing pre-NMDARs also control the dynamic range for long-term potentiation (LTP) at MPP-GC

124 for maintenance of neural activity within a dynamic range for proper circuit function.

125 r excitatory: inhibitory ratio and a greater dynamic range for signal integration and network oscilla

126 ory: inhibitory synaptic ratio and a greater dynamic range for signal integration and oscillatory beh

127 Based on the DIC analysis, a wide dynamic range for the ALP detection is obtained from 10

128 Under optimal conditions, the linear dynamic range for the determination of morin was found t

129 with high spatiotemporal resolution and high dynamic range force capability (10 pN - 100 nN).

130 G) with good linearity (R(2) = 0.9884) and a dynamic range from 0.1 to 10.

131 oncentration down to 0.85 pM in 60min with a dynamic range from 1 pM to 1000 pM, and could discrimina

132 The dynamic range from 10 to 100 uM with a correlation coeff

133 , a detection limit of 11.1 ng mL(-1), and a dynamic range from 17.3 to 79.6 ng mL(-1).

134 00-1000 MHz), we quantify motions spanning a dynamic range from ns to ms.

135 ogen (H(2)), and carbon dioxide with a large dynamic range from trace levels (demonstrated LoDs: CH(4

136 Hydraulic behavior in Larrea was highly dynamic, ranging from partial isohydry to extreme anisoh

137 With increasing enrichment rates, the dynamics ranged from clockwise hysteresis (low), to envi

138 re generally, for positive anisotropies, the dynamics ranges from anomalous superdiffusion to subdiff

139 FloChIP is fast (<2 h), has a wide dynamic range (from 10(6) to 500 cells), is scalable and

140 achieved accurate measurements over a large dynamic range, from 0.3 NTU to 2000 NTU.

141 anges in refractive index, offer an extended dynamic range, have a broad solvent compatibility, and h

142 he reported small-molecule systems lack wide dynamic range, have background activity in the absence o

143 Moreover, the proposed sensor has a wide dynamic range, high linearity, fast operation and low-co

144 parameters, such as throughput, sensitivity, dynamic range, image quality, sort purity, and sort yiel

145 r improves linearly, while mass accuracy and dynamic range improve quadratically with magnetic field

146 in a dose-dependent fashion over a >10-fold dynamic range in response to two different small-molecul

147 ts on recall performance, to ensure adequate dynamic range in time.

148 ficant change in the signal, sensitivity and dynamic range, indicating its potential application for

149 nds flexibility in DNA targeting, and boosts dynamic ranges into regimes that enable construction of

150 ets per sampling event to increase detection dynamic range is described, and a "continuous infusion"

151 rature and relative humidity) across a large dynamic range, is used to investigate low temperature wa

152 fly photoreceptor has achieved such a large dynamic range; it can encode intensity changes from sing

153 d for ST determination which showed a linear dynamic range (LDR) of 3 x 10(-6) - 1 x 10(-3) M and the

154 The linear dynamic range, limit of detection and enrichment factor

155 e measurements as well as the resolution and dynamic range limits that are inherent to the method.

156 nd showed high sensitivity in a broad linear dynamic range (LOD and LOQ: 500ng - 0.0625pg).

157 proaches, we have built a system with a wide dynamic range, low background, and fast photoactivation

158 an effective comparison, selectivity, linear dynamic range, method detection (LODs) and quantificatio

159 ive accuracy, as it relates to mass analyzer dynamic range, multiplexing level and number of ions sam

160 hese proteins, achieving the sensitivity and dynamic range necessary for in vivo application has been

161 by recording the activity of individual wide-dynamic-range neurons in the deep DH and extrapolating t

162 mbin concentrations and the PA ratio, with a dynamic range of 0-1000 nM and a limit of detection of 1

163 ion of the experimental parameters, a linear dynamic range of 0.03-1.73 mug/mL TBZ with a detection l

164 Hg(2+) was detected in the linear dynamic range of 0.1 aM to 0.1 nM, and the detection lim

165 al detection limit of 148 fg/mL and a linear dynamic range of 0.1-10 pg/mL using a minimal sample vol

166 +/- 0.09 s) detection of DA in a wide linear dynamic range of 0.1-1500 pM.

167 tion of 1.8 W, a detection limit of 40 nM, a dynamic range of 0.14-10 muM, and an infield accuracy of

168 s, the developed procedure exhibits a linear dynamic range of 0.5-5.0microgL(-1) with a detection lim

169 FB1 in naturally contaminated maize, with a dynamic range of 0.533-6.81 ng mL-1 and a detection limi

170 The method is linear over a dynamic range of 1 to 500 ng/mg.

171 e logarithm of HA protein concentration in a dynamic range of 10 pM to 10 nM with a detection limit o

172 nsor exhibited a sensitive response in broad dynamic range of 100 fM -10 nM with limits of detection

173 h a lower detection limit of 100 pg/ml and a dynamic range of 100 pg/ml - 100 ng/ml in human saliva.

174 High accuracy of quantitation within a dynamic range of 2 orders of magnitude and high reproduc

175 A limit of detection of 63 fM and a dynamic range of 200 fM-8 pM was observed for the assay.

176 tor was measured and shows the angle sensing dynamic range of 22 dB within the field of view of +/-60

177 asurement results show that the device has a dynamic range of 24 dB between two orthogonal orientatio

178 ined as AFB1 concentrations increased with a dynamic range of 3 ag.ml(-1) -1.9 ug.ml(-1) and a low li

179 ved limit of detection of 0.46 ng and linear dynamic range of 3 orders of magnitude in positive ion m

180 he quantification of creatinine; it showed a dynamic range of 3.25-200 muM and a limit of detection (

181 oxin B (SEB) as a model up to 6 pg/mL at the dynamic range of 3.5 orders with minimal sample pretreat

182 The simulation has a full dynamic range of 30 orders of magnitude in mass and reso

183 demonstrate that the GMR platform provides a dynamic range of 4 orders of magnitude and a limit of de

184 This prototype exhibits a wide dynamic range of 400-8000 ppm, a short response time of

185 ed conditions, the method exhibited a linear dynamic range of 5-150mugL(-1) with a detection limit of

186 ection limit of 1.6 ng . mL(-1) and a linear dynamic range of 6.3 - 100.0 ng . mL(-1) within a 5 min

187 atomic force microscope (AFM) is such that a dynamic range of 80 dB -- achievable with commercial Loc

188 However, the number of steps within the dynamic range of a parameter also needs to be considered

189 ples remain highly complex and exhibit broad dynamic range of abundance.

190 a cutting edge technology, but to quantify a dynamic range of abundances for different RNA or DNA spe

191 (7)-G(s) complexes are required for the full dynamic range of agonist-induced signaling, as 5-HT(7) r

192 strated a limit of detection of 10 pM with a dynamic range of at least 4 orders of magnitude in buffe

193 0(-13)-10(-14) mol and overall method linear dynamic range of at least 4 orders of magnitude with acc

194 ause the leading noise shifts ("adapts") the dynamic range of auditory neurons, which can improve the

195 ffectively profiling the broad diversity and dynamic range of biomolecules.

196 cells to directionally migrate over a large dynamic range of chemoattractant.

197 ltra-low sensitivities (LOD = 1.2 fM; linear dynamic range of concentrations from 1.2 fM to 1.8 pM).

198 line with two participants, it increased the dynamic range of decoded speeds and decreased the time t

199 hierarchical clustering, and the normalized dynamic range of each feature was computed to identify t

200 ferentiation stimulus, suggesting the normal dynamic range of ERK signalling is not rate-limiting in

201 A wide dynamic range of five orders of magnitude with an except

202 ithout compromising the scope, accuracy, and dynamic range of full-lipidome quantitative shotgun prof

203 a tool for reporting the real-time, in situ dynamic range of GPCR activity.

204 y system has many mechanisms to maximize the dynamic range of its afferent fibers, which operate at t

205 bundance ions can diminish the detection and dynamic range of lower abundance ions.

206 not take full advantage of the precision and dynamic range of modern sensors.

207 ng the digital and analogue readout covers a dynamic range of more than 3 orders of magnitude in a si

208 A detection limit below 1 ppmv, a dynamic range of more than 4 orders of magnitude, no inf

209 pull-in instability without restricting the dynamic range of motion.

210 sor coisolation and improve the accuracy and dynamic range of multiplex quantitation.

211 0(5) unique cleavage sites over a 1,000-fold dynamic range of NGS counts and produced consensus and o

212 ty of the calibration standard and the large dynamic range of our assay, we were able to identify "qu

213 etection (LOD) down to 30 mug/L and a linear dynamic range of over 3 orders of magnitude.

214 localizes predominantly in lysosomes, has a dynamic range of pH 4.0 to 6.5, and can be stably expres

215 e highlight how these elements influence the dynamic range of photoactivation and how activation can

216 Sensitivity and dynamic range of Prussian Blue based (bio)sensors in pow

217 ing data imputation to account for the large dynamic range of PTM measurements.

218 t high resolution (1 nm) and provide a large dynamic range of size-based separation.

219 transmits auditory information over a broad dynamic range of sound frequency and intensity.

220 The sharp frequency tuning and wide dynamic range of sound sensation are hypothesized to req

221 of spatial memory, for the expansion of the dynamic range of synapses, exemplified by the enhancemen

222 The preliminary results also show a wide dynamic range of the analyzer.

223 unsolved challenge due to the extraordinary dynamic range of the blood proteome.

224 The dynamic range of the calibration graph was 0.03-0.50mumo

225 mation, given constraints from noise and the dynamic range of the channel.

226 imizing the mixing time of the reagents, the dynamic range of the enzymatic assay was adjusted to 0-1

227 uency resolution, signal-to-noise ratio, and dynamic range of the measurements.

228 ify the detection signal and thus extend the dynamic range of the quantitation.

229 The dynamic range of the sensing system falls between 10 and

230 The sensitivity and dynamic range of these assays benefit from the specifici

231 adian photoentrainment, thereby shifting the dynamic range of these behaviors to higher light levels.

232 s this problem, significantly increasing the dynamic range of these devices.

233 ing efficiency, quantification accuracy, and dynamic range of these SUGAR tags has been evaluated, sh

234 r [(18)F]FDG uptake in dbPET highlighted the dynamic range of this breast-specific imaging modality.

235 The high sensitivity and large dynamic range of this NMNAT2-MSD platform allowed us to

236 The module can produce concentrations with a dynamic range of three decades.

237 t the firing rate, contrast sensitivity, and dynamic range of V2 neurons were depressed in infants co

238 n agency guidelines (5.37 uM), with a linear dynamic range of ~28 (~2-30 uM) and an R(2) value of 0.9

239 The FOLP and HFOLP sensors showed broad dynamic ranges of 0.12-1000 muM and 0.09-3 mM for formal

240 the circuit, exhibiting the acts of variable dynamic ranges of biological system.

241 grate slowly and orientate poorly over broad dynamic ranges of chemoattractant.

242 -positive cells from nonresponders increased dynamic ranges of downstream experiments 10-fold.

243 nce of different regulatory inputs to normal dynamic ranges of gene activity.

244 otein amplification techniques, and the vast dynamic-range of protein expression in cells.

245 uniformity compared to MALDI, and the wider dynamic range offered by NAPA promises improved quantita

246 d movements shift the effective visual input dynamic range onto the sensitivity optimum of the motion

247 ty are either limited by spatial resolution, dynamic range, or lack of single-molecule sensitivity.

248 s greening in plant tissue extracts with the dynamic range over three orders of magnitude in the low

249 In wide-ranging taxa with historically dynamic ranges, past allopatric isolation and range expa

250 mass measurement accuracy below 100 ppb, and dynamic range per pixel over 500:1 were obtained from th

251 tiphoton microscopes are hampered by limited dynamic range, preventing weak sample features from bein

252 y or in combination have potential in a full dynamic range quantification strategy based on LAMP, in

253 mputations, including adjusting the neuron's dynamic range, reducing redundancy, and facilitating pro

254 Its sensitivity and dynamic range remained constant with RNAs ranging in siz

255 preparation strategies to approach the wide dynamic range required and compared them systematically

256 g limit of detection (LOD), input and output dynamic ranges, response time, and output visibility.

257 and compared in terms of their sensitivity, dynamic range, selectivity, precision, and simplicity.

258 i (mCbN), which fire spontaneously with wide dynamic ranges, send glutamatergic projections to the ve

259 High sensitivity and an unusually broad dynamic range should enable mGluR2/7 to respond to both

260 In addition, FAIMS improved the dynamic range, signal-to-noise ratios, and detection lim

261 ectral preprocessing tool for decreasing the dynamic range so that the relative variance of smaller b

262 in CE with zeptomolar detection limits and a dynamic range spanning 5 orders of magnitude, comparable

263 glycoproteins reached femtomole levels with dynamic ranges spanning 3-4 orders of magnitude.

264 o about 11, ribbon synapses can increase the dynamic range, temporal precision and efficiency with wh

265 n unbiased protein sequencing method, with a dynamic range that covers the full range of protein conc

266 a user-friendly GFP-based sensor of improved dynamic range that enables real-time subcellular quantit

267 the lack of small genetic switches with wide dynamic ranges that control transgene expression without

268 Typically, for measurements with a high dynamic range, the range is reduced by using the square

269 echnique is described to extend the system's dynamic range to approximately 10(8).

270 underpinning Taylor dispersion offer a high dynamic range to characterize the hydrodynamic radius of

271 line was utilized to expand the measurement dynamic range to higher concentrations.

272 between the two photosystems in a very large dynamic range to optimize electron transport.

273 to encode weak stimuli while maintaining the dynamic range to signal the amplitude and duration of st

274 ing reporter yielded comparable kinetics and dynamic range to the PKA FRET reporter, AKAR3EV.

275 tization of high-threshold (HT) but not wide-dynamic range trigeminovascular neurons by cortical spre

276 ve high-threshold (HT) neurons, but not wide-dynamic range trigeminovascular neurons, and that the in

277 eting EV proteins like CD63 and HER2, with a dynamic range up to 10(8) particles/mL.

278 hia coli can evaluate two-input logic with a dynamic range up to 900-fold and scale them to four-inpu

279 robust, sensitive, and accurate with a wide dynamic range using either protein standards or complex

280 The linear dynamic range was 0.3-1000 ug kg(-1) with determination

281 Under the conditions optimized, the linear dynamic range was found between 5.0 and 50 ug L(-1), and

282 The linear dynamic range was from 1 x 10(-6) U.mL(-1) to 1 U.mL(-1)

283 als, some success in extending the operating dynamic range was obtained by using nonlocality.

284 To improve dynamic range, we employed improved optogenetic heterodi

285 ime distribution of E. coli cells in a large dynamic range, we found that normal cells rejuvenated wi

286 The assay limit of detection (LOD) and dynamic range were determined by spiking B. anthracis DN

287 The assay limit of detection (LOD) and dynamic range were determined in a filter-based cartridg

288 conditions, the detection limits and linear dynamic ranges were achieved in the range of 0.0075-0.03

289 Three orders of magnitude semilogarithmic dynamic ranges were achieved.

290 Dynamic ranges were easily tunable for concentration ran

291 ) were high and similar among platforms, yet dynamic ranges were higher for sequencing based platform

292 results show that, despite having a narrower dynamic range when compared to the competitive format, t

293 We establish that 800-20 000 is the dynamic range where accurate Qdot-enabled quantification

294 termine that it has an extraordinarily large dynamic range with a 2 ns lifetime change from pH 5.5 to

295 trong chimeric output promoter, and increase dynamic range with a miniaturized photosensor kinase.

296 rate Leu-FC empowered sensor displayed broad dynamic range with admirable detection limits.

297 f cytokine-secreting cells and has excellent dynamic range with rapid turnaround.

298 ssional chess players exhibited an increased dynamic range, with increased traveling between successi

299 the biomarkers within a clinically relevant dynamic range, with the limit of detection values in the

300 ays improves their signal-to-noise ratio and dynamic range without altering their workflow and readou