ライフサイエンスコーパス: cell viability

1 ants revealed abnormal mitochondria and poor cell viability.

2 ir and impacts RNA polymerase I activity and cell viability.

3 ial with higher viscoelasticity improves the cell viability.

4 and vIRF-3 have been reported to promote PEL cell viability.

5 noid X receptor to decrease BCR-ABL leukemic cell viability.

6 oelastic properties of the shell can dictate cell viability.

7 resulting in mitochondrial defects and poor cell viability.

8 ce of the bacteria with full preservation of cell viability.

9 cs and reduced cyst growth without affecting cell viability.

10 g of either DHCR7 or DHCR24 had no impact on cell viability.

11 or for viral replication but dispensable for cell viability.

12 ance testing was used to assess conjunctival cell viability.

13 ghly synergistic in decreasing neuroblastoma cell viability.

14 and interleukin-6 production and compromise cell viability.

15 5, CXCL10, COX2, and MMP3) without affecting cell viability.

16 , including the heat shock transcriptome and cell viability.

17 dependent on continued FGFR2 signalling for cell viability.

18 and reduces EC migration, proliferation, and cell viability.

19 her leads to cell-cycle arrest and decreased cell viability.

20 cal tension of cells can contribute to lower cell viability.

21 nes increased AXIN1 expression and decreased cell viability.

22 icancer agents for their ability to decrease cell viability.

23 invasion into A549 cells and increased A549 cell viability.

24 ondrial reactive oxygen species that control cell viability.

25 imary astrocytes) whilst preserving over 90% cell viability.

26 l in a microfluidic device with no impact on cell viability.

27 t maintain ALT telomere stability and cancer cell viability.

28 necrotic beta cell death and increased beta cell viability.

29 ow no defects in centromere localization and cell viability.

30 ids, resulting in a significant reduction in cell viability.

31 isplatin-Gemcitabine (CG) seeking changes in cell viability.

32 ins while avoiding significant reductions in cell viability.

33 with up to 80% delivery efficiency and >95% cell viability.

34 g and viral multiplication, while preserving cell viability.

35 d 4% (w/v) GL showed higher printability and cell viability.

36 ptional activity correlated with the reduced cell viability.

37 itors were highly effective in reducing ERMS cell viability.

38 ecovery of barcodes by light with no loss in cell viability.

39 aithful chromosome segregation and long-term cell viability.

40 of PCa, but had no significant effect on PCa cell viability.

41 t cells with high recovery rate, purity, and cell viability.

42 kinetics of GFP plasmids at no compromise of cell viability.

43 r essential for KIT gene expression and GIST cell viability.

44 is essential for mitochondrial function and cell viability.

45 ry pathway and must be retrieved to maintain cell viability.

46 ced synapse number independent of changes in cell viability.

47 silencing partially rescues the reduction in cell viability.

48 anically damage the cells which threaten the cell viability.

49 e experimental whitening gels did not affect cell viability.

50 atin and gemcitabine (CG) seeking changes in cell viability.

51 wth of C. trachomatis without affecting host cell viability.

52 study) and EGFR inhibitory effect on cancer cell viability.

53 d cisplatin efficacy in the inhibition of PC cell viability.

54 lated with increased apoptosis and decreased cell viability.

55 SPR-Cas9 knockout of RP genes did not affect cell viability.

56 pore densities in the membrane and maintain cell viability.

57 ydrolysis correlates with the restoration of cell viability.

58 of such melanoidins softened the decrease in cell viability.

59 l1 and Mrc1 to protect replication forks and cell viability.

60 exposure in pancreatic cell lines decreased cell viability.

61 ion to the plasma membrane without improving cell viability.

62 t induced proteotoxic stress and compromised cell viability.

63 ZNF165-SMAD3 complex that also support tumor cell viability.

64 renders tau prone to aggregate and to impair cell viability.

65 are most often used to quantitatively assess cell-viability.

66 3.6 +/- 3.44% EGFP + viable cells) with high cell viability (77.3 +/- 0.58%) and recovery (88.7 +/- 3

67 chemotherapeutics was assessed by measuring cell viability after drug exposure.

68 inant HGF and HS-5-conditioned media rescued cell viability after GW-2580 treatment in AML patient sa

69 that Ibrutinib significantly increased host cell viability after S. aureus infection via inhibition

70 For cytotoxicity, the Caco-2 cell viability analysis revealed that these two technolo

71 We examined the effects of Pvfp-5beta on cell viability and adhesion capacity in NIH-3T3 and HeLa

72 ation, monolayer permeability, angiogenesis, cell viability and apoptosis were evaluated.

73 ted that linc-SPRY3-2/3/4 transcripts affect cell viability and apoptosis.

74 delivery methods since they minimally affect cell viability and can target many types.

75 ant acoustic trapping device to evaluate the cell viability and cell metabolism for a healthy cell li

76 DHA promoted cell growth indicated by higher cell viability and cell number, and inhibited cell injur

77 low and pressure was associated with reduced cell viability and decreased expression levels of viment

78 al vein endothelial cells (HUVECs) increased cell viability and decreased oxidative stress after trea

79 or (4-Aminobenzoic acid hydrazide) increased cell viability and delayed apoptosis, highlighting a mec

80 progenitor cells (HSPCs), without impairing cell viability and differentiation potential.

81 Cell viability and electro-transfection efficiency (eTE)

82 Such an encapsulation technique ensures cell viability and enables targeted drug delivery in can

83 gh an ionophore-based mechanism, maintaining cell viability and enabling longitudinal assessment with

84 s work, the effects of buffer composition on cell viability and eTE were systematically explored for

85 , transparency); finally it should guarantee cell viability and eventually induce a desired behaviour

86 ansfection efficiency with minimum impact on cell viability and expansion potential.

87 Furthermore, they had decreased cell viability and expression of collagen type I, type I

88 ment responses were determined by evaluating cell viability and expression of tendon-related prolifer

89 ransport along microtubules is necessary for cell viability and function, particularly in neurons.

90 ers that provide 3D organization and support cell viability and function.

91 ng cells with unloaded DIANAs did not impair cell viability and functionality.

92 ligand, had the greatest impact on prostate cell viability and gene expression.

93 B/Akt signaling and, subsequently, decreased cell viability and glucose-stimulated insulin secretion.

94 inting process was cytocompatible, with high cell viability and homogenous distribution of mesenchyma

95 HK1i and PI3K/mTORi significantly attenuated cell viability and increased DNA damage, chromosomal bre

96 Inhibition of PDGFRbeta reduces liposarcoma cell viability and increases adipogenesis.

97 I1 inhibitor) exposure significantly reduced cell viability and induced apoptosis at 10 uM.

98 that expression of NANOG and HOXA9 promoted cell viability and inhibited apoptosis through suppressi

99 MAGE-A11 is necessary for cancer cell viability and is sufficient to drive tumorigenesis.

100 information and knowledge, closely linked to cell viability and its vital functions.

101 g protein, known as BCCIP, are essential for cell viability and maintenance of genomic stability.

102 Importantly, Histatin-1 restored both cell viability and migration in both cell lines upon cha

103 1R) and their potency/efficacy to inhibit BC cell viability and migration in four phenotypically dive

104 Zoledronic acid decreased cell viability and migration of osteosarcoma cells (SAOS

105 1 and Cu-ATPases with consequences on cancer cell viability and migration.

106 Modest effects on cell viability and mitochondrial DNA were observed in vi

107 trieval of the captured CTCs/CFNCs with high cell viability and molecular integrity.

108 with 4F confirms a significant reduction in cell viability and neurite growth.

109 on-inertial cavitation significantly reduced cell viability and proliferation at 72 h.

110 Monitoring cell viability and proliferation in real-time provides a

111 Targeting mTOR decreases cell viability and prolongs survival, showing the utilit

112 We found that cell viability and reductive metabolism for both cell li

113 s of vIRF-1 and vIRF-3 with USP7 promote PEL cell viability and regulate productive replication.

114 Upregulation of PRL-3 increased myeloma cell viability and rephosphorylated STAT3 in a biphasic

115 ls, PAWI-2 showed greater potency to inhibit cell viability and self-renewal capacity of FGbeta(3) ce

116 template to circumvent the tradeoff between cell viability and specificity by combining high-sensiti

117 Cell viability and survival assays using multiple epitop

118 se was analysed in terms of spheroid growth, cell viability and the distribution of live/dead cells.

119 cantly reduced cell death and increased both cell viability and the recovery potential of the detache

120 hion, correlating with increased endothelial cell viability and vascular integrity.

121 ium enhanced autophagic activities, improved cell viability, and attenuated cell death.

122 ts of PolyDOTS on lysosomal destabilization, cell viability, and free radical damage were analyzed.

123 bitor of JAB1, CSN5i-3, reduces osteosarcoma cell viability, and has specific effects on the ubiquiti

124 t 8a decreases triple-negative breast cancer cell viability, and immunoblotting revealed that impaire

125 ranes, but caused reduced neurite outgrowth, cell viability, and mitochondrial content.

126 mutant enhanced the defects in root growth, cell viability, and PC content of pmt1, suggesting that

127 +)-provoked mitochondrial changes, increased cell viability, and prevented MPP(+)-induced dendrite sh

128 lled storage conditions required to preserve cell viability, and the usually required bulky, as well

129 hed in FIR-responsive ECFCs were involved in cell viability, angiogenesis and transcription.

130 by immunohistochemistry, immunofluorescence, cell viability, apoptosis assays, and electron and confo

131 c defects often trigger apoptosis, impairing cell viability as a tradeoff for tumor suppression.

132 sociation of Cdc5 with Cse4 is essential for cell viability as constitutive association of Cdc5 with

133 BoCz-Lip showed minimal impact on cell viability as well as internal LDs' protein, triglyc

134 A cell viability assay showed potentiation of ATP-induced

135 Mcl-1 inhibitor (IC(50) = 19 nM in an OPM-2 cell viability assay) with good pharmacokinetic properti

136 ree treatments with TMZ was monitored with a cell viability assay.

137 nyl)-2-(4-sulfophenyl)-2 H-tetrazolium (MTS) cell viability assays revealed that 56, the ethyl ester

138 and functional annotation based on in vitro cell viability assays we developed including a new datas

139 Using cell viability assays, LC3B immunoblots, and live-cell f

140 Cell viability assays, real-time polymerase chain reacti

141 gene knockdowns and clonogenic survival and cell viability assays, we demonstrate that PAICS is requ

142 transcription, kinetic analyses, and in vivo cell viability assays, we report that point amino acid s

143 l microscopy, endocytosis, PLD activity, and cell viability assays, we show that exogenously supplied

144 used metabolite analyses, bioenergetics, and cell viability assays, we show that two oncogenic Myc pr

145 cancer by knockdown experiments followed by cell viability assays.

146 r magnetic resonance, electrophysiology, and cell viability assays.

147 scopy for the development of next-generation cell viability assays.

148 , current implementations are limited by low cell viability at >24 h times, the reduced sensitivity c

149 hibitor, caused about 70% drop in MDA-MB-231 cell viability at 20 muM while 40 muM IA was needed to d

150 e of cytosolic dye (calcein) or reduction in cell viability at 24 and 72 hours post-SMA (MTT assay).

151 standard urban PM over time led to decreased cell viability at 48 hours.

152 s have antioxidant activity and no effect on cell viability at doses lower than 16 mg/mL.

153 dominate cytoplasmic mechanics and maintain cell viability at large deformations.

154 Notably, select lubricants altered cell viability, barrier targets, and inflammatory mediat

155 LDH inhibitors affected Ewing sarcoma cell viability both in vitro and in vivo by reducing gly

156 erase II (Pol II) transcription and promotes cell viability by activating the positive transcription

157 ncrease in inhibition of kinase activity and cell viability by irreversible inhibitors compared to th

158 e achieved dynamic digital quantification of cell viability by simple optical imaging using "single c

159 We demonstrate that high cell viability can be achieved reliably when the device

160 sphatase 2A (PP2A), leading to inhibition of cell viability, cell cycle progression, glucose uptake,

161 gingival keratinocytes (TIGKs) by measuring cell viability, cell lysis and apoptosis.

162 trated, optojasps can be employed to control cell viability, cell motility, and cytoskeletal signalin

163 Cell viability, cell number, lactate dehydrogenase (LDH)

164 effects of gain and loss of NO66 function on cell viability, colony formation, migration, invasion, a

165 PG decreased cell viability compared to that of BG, but it presented

166 significant downregulation in thyroid cancer cell viability, coupled to an increase in apoptosis.

167 ening applications, high-temporal resolution cell viability data could inform decisions on drug appli

168 Measurement of cell viability demonstrated a low death profile in stres

169 A further comparison demonstrates that the cell viability drops by 35-45% using a commercial FACS m

170 the negative effect of 20 mm glucose on the cell viability during culture period.

171 Raising questions about cell viability, especially for single-cell selection, cl

172 rescue (over ~100 s) with minimal effect on cell viability even after multiple cycles of osmotic per

173 light irradiation a dramatic decrease of the cell viability, even under low oxygen conditions.

174 eased OAS1 expression substantially improves cell viability following DNA-damaging treatments that st

175 ability to run samples in parallel. Average cell viability for all groups remained high (>83%), rega

176 tural failure and show a significant drop in cell viability for shear stresses >11.8 kN/m(2).

177 of action and enable prediction of long-term cell viability from short-term transcriptional responses

178 Oxidative stress alters cell viability, from microorganism irradiation sensitivi

179 lung cancer cells and mitigates lung cancer cell viability, growth, progression, and metastasis of l

180 Furthermore, cell viability in a cancerous cell lines was evaluated b

181 syn-RA16 was capable of inhibiting NCI-H460 cell viability in a dose-dependent manner.

182 ydroxamic acid was associated with decreased cell viability in B-Raf inhibitor-sensitive and -resista

183 s (2.3% +/- 0.8% and 2.7% +/- 0.3% remaining cell viability in CHL-GLP-1R and INS-1 cells, respective

184 he energy harvested by PRs helps to maintain cell viability in dominant coastal photoheterotrophic ol

185 MT and FMO3, increase apoptosis and decrease cell viability in liver-derived cancer cell lines when e

186 t glucose, deprivation significantly reduced cell viability in MDV-infected cells, both glutamine and

187 FL3 exhibited no change in cell viability in normal intestinal epithelial cells or

188 GMB-475 degraded BCR-ABL1 and reduced cell viability in primary CML stem cells.

189 Celecoxib in addition to docetaxel enhanced cell viability in PTGS2-low cell lines but not in PTGS2-

190 poses a major threat to genome stability and cell viability in the absence of the FA pathway.

191 cal function of autophagy genes in promoting cell viability in the presence of inflammatory cytokines

192 Tipifarnib reduced cell viability in these T-cell leukemia and TCL cell lin

193 xperiments, MIR1249 inhibition did not alter cell viability in untreated or dimethyl sulfoxide-treate

194 xperiments, MIR1249-inhibition did not alter cell viability in untreated or DMSO-treated cells; howev

195 owed that all compounds affected endothelial cell viability in vitro at low micromolar doses.

196 nificantly increased apoptosis and decreased cell viability in vitro in a caspase-8- and FADD-depende

197 sion of human cord blood HSCs without losing cell viability in vitro.

198 accurate single cell level sorting with high cell viability, in particular for sensitive cell types.

199 uggesting that DNA ligases are essential for cell viability includes the fact that defects or insuffi

200 ipid homeostasis was associated with reduced cell viability, increased necrosis, procaspase-3 and PAR

201 otent and leading to significantly decreased cell viability, increased reactive oxygen species (ROS)

202 d cellular energy stores, and decreased beta-cell viability independently of thioredoxin reductase in

203 spectrum of tumor cells that is critical for cell viability, invasion, and migration.

204 dysfunctional, ROS levels are increased, and cell viability is reduced.

205 luorescent protein after internalization and cell viability is unaffected by the presence of the FePt

206 Although LM609 had no direct effect on tumor cell viability, it engaged macrophages but not natural k

207 We identified drugs that increased cell viability; leflunomide (used to treat patients with

208 vIRF-2 was determined to promote latent PEL cell viability, likely independently of USP7 interaction

209 ns is challenging because the requirement of cell viability limits the mutations that can be made.

210 Field-Flow Fractionation (AF4) and in vitro cell viability measurements were used.

211 S), UW, or HypoRP solution on the structure, cell viability, metabolism, and function were determined

212 he constraints imposed by having to maintain cell viability might facilitate improved production metr

213 sulfotransferase-1 (C6ST-1/CHST3) suppressed cell viability, migration and invasion, reduced MMP-2 an

214 tured glioma cells with C4S and C6S enhanced cell viability, migration, and invasion, increased MMP-2

215 To counter this threat to cell viability, molecular chaperones have evolved to hel

216 Following ddC exposures, we measured cell viability, mtDNA copy number, and mitochondrial bio

217 based on enzyme activity was used to detect cell viability, necrosis and apoptosis before and after

218 never below 80% whereas irinotecan achieved cell viabilities of less than 44%.

219 V2R gene silencing reduced wound closure and cell viability of 786-O and Caki-1 human ccRCC cell line

220 ition of caspases was insufficient to rescue cell viability of autophagy-repressed infected monocytes

221 /mL) have shown cytotoxic effect and reduced cell viability of Caco-2 cells by 45% and 62%, respectiv

222 DND treatment enabled efficient reduction in cell viability of Capan-1 and CD18/HPAF cells in vitro c

223 Comparing the cell viability of H187 human epithelial lung cells from

224 Cell viability of human dental pulp stem cells cultured

225 esult in reduced KIT expression and relative cell viability of imatinib-resistant GIST cells.

226 Cell viability of melatonin, PolyRad alone without melat

227 The WST-1 assay was used to evaluate the cell viability of mouse fibroblast cells (L929).

228 678Asp) transfection significantly decreased cell viability of rat cultured cortical neurons.

229 electron microscopy confirmed the decreased cell viability of the cwp22 mutant.

230 ning identified three compounds that enhance cell viability, of which 20(R)-ginsenoside Rh(2) showed

231 while 40 muM IA was needed to decrease MCF7 cell viability only by 30% within 4 hours of treatment.

232 % using a commercial FACS machine, while the cell viability only drops by 3-4% using our aFACS system

233 t MTD transduction does not adversely affect cell viability or expansion potential.

234 or ribonuclease activation, leading to poor cell viability or RNA quality, which may impair analysis

235 ells, with delivery efficiency up to 90% and cell viability over 94%.

236 e method of hLMSC preservation offering high cell viability over prolonged durations in transit at RT

237 6 in ACHN cells significantly decreased the cell viability (p < 0.001).

238 e I PRMT inhibitor MS023 to inhibit leukemia cell viability parallels baseline FLT3 R972/973 methylat

239 n ALS (ie, SOD1 protein aggregation, reduced cell viability, perturbations in mitochondrial morpholog

240 ensities with subsequent reuptake confirming cell viability post electroporation.

241 hanges in the functional properties, such as cell viability, proliferation, and antigen-specific cyto

242 Cell viability, proliferation, and cell cycle were evalu

243 ted in breast tumors, altering breast cancer cell viability, proliferation, and migration.

244 tatic CaP produced a significant decrease in cell viability, proliferation, and motility but did not

245 r results showed that AM hydrogels supported cell viability, proliferation, and stemness.

246 ied out to evaluate the effect of Ag-Phen on cell viability, reactive oxygen species generation and m

247 ating that key cell cycle components mediate cell viability reduction.

248 ed kinase (ERK), which is essential for host cell viability, remains intact.

249 the copolymer bioscaffold supports long-term cell viability, response to extracellular signaling cues

250 According to the cell viability results, CAP treatment successfully augme

251 We show that SR9009 can decrease cell viability, rewire cellular metabolism, and alter ge

252 Cell viability, ROS, NADPH, NADH, and ATP levels were fu

253 intracellular accumulation of compound 1 and cell viability screening.

254 Although crh genes are dispensable for cell viability, simultaneous deletion of all genes rende

255 In vitro cell viability studies of these derivatives illustrate g

256 ospitals, food processing and in general for cell viability studies.

257 he canonical role of autophagy in supporting cell viability, synaptic autophagy appears to regulate s

258 A cell viability test was conducted on MgSO(4) solutions a

259 Low cost, easy to use cell viability tests are needed in the pharmaceutical, b

260 Toxicity studies evaluated by cell viability tests with human intestinal epithelium mo

261 sed scaffolds exhibited significantly higher cell viability than fibrin-based scaffolds after 15 days

262 he neurite-like processors and decreased the cell viability that paralleled with increased levels of

263 prolongation of mitosis was shown to affect cell viability, this may resemble a mechanism to regulat

264 We describe a CMOS biosensor that monitors cell viability through high-resolution capacitance measu

265 (TRPM2) has an essential role in protecting cell viability through modulation of oxidative stress.

266 ), NTAL depletion from lipid rafts decreases cell viability through regulation of the Akt/PI3K pathwa

267 romote productive replication and latent PEL cell viability through upregulation of the mannose-6-pho

268 ion at concentrations that have no effect on cell viability, thus identifying ac4C addition as a pote

269 TurNP + EP treatment in reducing MDA-MB-231 cell viability to as low as 9% at 12 h.

270 In fact, the time required to reduce cell viability to the half was nearly a 75% faster.

271 A and the metallothioneins MT-I and MT-II to cell viability under conditions of Cu excess or deficien

272 he S. mutans frtR gene resulted in decreased cell viability under fluoride in both the planktonic sta

273 defective mitochondrial ETC that compromise cell viability under stress conditions are not entirely

274 ncy of the NHEJ repair pathway and decreases cell viability upon DNA damage.

275 altered Smad signaling, steroidogenesis and cell viability upon modulation of BMPR-IB gene in granul

276 imum glutamine requirements based on optimal cell viability, virus replication was partially rescued

277 r five days through continuous perfusion and cell viability was analysed on-chip at different time po

278 Cell viability was determined, and target gene expressio

279 heir expression of specific surface markers; cell viability was evaluated after injection with a 21-G

280 Cell viability was investigated on PEDOT:CNF coated micr

281 By day 13, differentiated cell viability was maintained but declined for prolifera

282 With temozolomide the cell viability was never below 80% whereas irinotecan ac

283 Inhibited cell viability was noted in >20% of samples that were te

284 No reduction in cell viability was observed at doses that were effective

285 n of intracellular bacterial load while host cell viability was restored, showing its importance duri

286 ed 1.3 M DMSO, 0.1 M trehalose and 1.5% BSA; cell viability was similar to fresh controls (78.8% +/-

287 exert cytotoxic effects on Caco-2 and HUVEC cells (viability was >80%).

288 MYCN mRNA and cell viability were reduced in a broad set of neuroblast

289 Steroidogenesis and cell viability were studied to explore the granulosa cel

290 The proteomics results correlate well with cell viability, western blot, and qPCR data.

291 Cell viability, Western Blotting, Zymogram, and Real-tim

292 BCL-W, BCL-XL, and MCL1) selectively reduced cell viability when combined with a Cu chelator and indu

293 a time resulted in a significant decrease in cell viability when compared with naive livers as well a

294 but only at concentrations that also reduced cell viability, whereas ICM reduced synapse number indep

295 Cwp22 is involved in cell wall integrity and cell viability, which could affect most phenotypes of R2

296 fication decreased overall mammary carcinoma cell viability, while increasing their resistance to the

297 l for contractile function and regulation of cell viability, while mitochondrial dysfunction characte

298 MPK, inhibition of mTORC1, or restoration of cell viability with a Bcl-x(L) transgene failed to rescu

299 of the pulse application primarily dictated cell viability, with Mg(2+)-based buffers expanding the

300 tably, IFNT reversed the actions of THBS1 on cell viability, XIAP, and cleaved caspase-3.