ライフサイエンスコーパス: irradiation

1 ye in aqueous solution under simulated solar irradiation.

2 minating PARTICLEs elevated transcription to irradiation.

3 in water at 25 degrees C under visible-light irradiation.

4 ased by 10% (5 x 10(18) m(-2)) under optical irradiation.

5 n of mechanical energy or strong ultraviolet irradiation.

6 antibody targeting with the effectiveness of irradiation.

7 singlet oxygen ((1)O2) production upon laser irradiation.

8 damage arising from energetic proton (H(+)) irradiation.

9 itro, which was significantly elevated after irradiation.

10 ersion yield increase by additional electron irradiation.

11 ng the water radiolysis process under proton irradiation.

12 s, such as those generated by bombardment or irradiation.

13 r and activity of osteoclasts, regardless of irradiation.

14 t strongly absorbs light under single 980 nm irradiation.

15 upon treatment with alkylating agents or UV irradiation.

16 spatiotemporally controlled by pulsed laser irradiation.

17 ollow-up was conducted </=4 months after the irradiation.

18 were not significantly affected by the gamma-irradiation.

19 ed amelioration of the epigenetic effects of irradiation.

20 tion capability of TiO2 powder without light irradiation.

21 treme instability of MOFs upon electron beam irradiation.

22 a reducing and capping agent under microwave irradiation.

23 rtant markers for biodosimetry 2 d-3 d post-irradiation.

24 d only small easily absorbed molecules after irradiation.

25 ng competitive repopulation following lethal irradiation.

26 dily at room temperature under visible light irradiation.

27 7 cells, improving apoptotic cell death upon irradiation.

28 h stepwise thiolyne chemistry using UV light irradiation.

29 nd outstanding stability under visible light irradiation.

30 the increased film optical density after UV irradiation.

31 DNA damage sites in response to ultraviolet irradiation.

32 xcitation feasible both under 980 and 808 nm irradiation.

33 s the chemical changes induced by helium ion irradiation.

34 ct and quick drug release in response to NIR irradiation.

35 lls to promote cell death upon further laser irradiation.

36 ng systemic administration 3days after tumor irradiation.

37 ophages is delayed in acute injury following irradiation.

38 nges in gene expression even at 1 week after irradiation.

39 s with formaldehyde in water under microwave irradiation.

40 nges fluorescence from green to blue upon UV irradiation.

41 s and their H2-generating ability upon light irradiation.

42 mouse prostate was also sensitized to gamma-irradiation.

43 e stress after corneal damage induced by UVB irradiation.

44 ome specific structural responses to neutron irradiation.

45 cells and of complete blood counts following irradiation.

46 of RNA in cell subpopulations via selective irradiation.

47 ruitment of XPC to the DNA lesion site after irradiation.

48 photocatalysis with MOFs under visible-light irradiation.

49 for damage bypass and cell survival after UV irradiation.

50 er, before the entire wafer is exposed to UV irradiation.

51 eek) time points following whole body proton irradiation.

52 uence of an applied electric field and light irradiation.

53 ncer cells and hela cells under 800 nm laser irradiation.

54 roperty of this material under visible light irradiation.

55 dox mediator, which is released during light irradiation.

56 ed using the Stille reaction under microwave irradiation.

57 The micelles are highly sensitive to light irradiation: (1)O2 triggering induced dramatic particle

58 ith an exceptionally low-power NIR LED light irradiation (10 mW cm(-2) ), these nanoparticles show su

59 ts with primary brain tumors and whole-brain irradiation, 19 with primary brain tumors and chemothera

60 Light irradiation (300 nm) of an aqueous solution of 1-3 subse

61 ined from 4,4-disubstituted 2,5-dienone upon irradiation (365 nm) in the presence of various amines d

62 In combination with a single dose of gamma irradiation 50 at 42 mumol/kg eliminated detectable clon

63 Blue light irradiation, a [Ru] or [Ir] photocatalyst, and ascorbic

64 Upon UV irradiation, a slowdown of transcript elongation and res

65 To evaluate effect of gamma irradiation, A. platensis was exposed to different doses

66 k to the more stable one, while broadband IR irradiation above 2000 cm(-1) results in an equilibratio

67 During irradiation, aliquots were taken and analyzed by a flow

68 uch as infection, heat, or ultraviolet light irradiation, all of which cause cellular stress.

69 omic perturbations occurred within 24 h post-irradiation along with increases in cytokine levels and

70 Irradiation also inhibits the nonphotochemical (probably

71 vity under UV-filtered simulated solar light irradiation (AM 1.5G, 100 mW cm(-2), lambda > 400 nm, pH

72 The combination of total lymphoid irradiation and anti-T-cell antibodies safely induces im

73 hu' mandarins are significantly sensitive to irradiation and are not suitable for treatment at the st

74 tip microelectrode simultaneously for local irradiation and as an electrochemical probe, SPECM was c

75 The aqueous phase was collected after irradiation and derivatized with DNPH, which selectively

76 Some of them were excited by visible light irradiation and emitted fluorescence at the NIR region w

77 Ultrasound irradiation and enzymatic hydrolysis were applied for th

78 and selenophene-flanked NDIs using microwave irradiation and excess Lawesson's reagent.

79 ars in patients (n=215) who had craniospinal irradiation and had been treated with a curative intent.

80 wt/vol, applied on rabbit corneas during UVB irradiation and healing (UVB doses 1.01 J/cm(2) once dai

81 candidate miRNA-deletion mutants post gamma-irradiation and identified cel-mir-237 as a miRNA which

82 reduced responsiveness of HR repair genes to irradiation and inefficient double-strand break repair c

83 nt conditions, using nanosecond-pulsed laser irradiation and magnetic gold nanoclusters (MGNCs) as th

84 In the presence of UV irradiation and ppm concentrations of copper(II) bromide

85 Total body irradiation and radiation proctitis were monitored to in

86 eoplasm under steady-state conditions before irradiation and rapidly escorts it to the damaged DNA af

87 , is transiently elevated following low dose irradiation and regulates transcription of its neighbour

88 t DNA double-strand breaks efficiently after irradiation and show greatly diminished proficiency for

89 l photocurrent generated at the sample under irradiation and to detect the photoelectrocatalytically

90 ouse skin are induced by short-term solar UV irradiation, and a long-term skin carcinogenesis study s

91 for ultrafast lasers, stable against intense irradiation, and as a visible to near-infrared photodete

92 ls increased in wild-type animals post gamma-irradiation, and loss of cel-mir-237 also resulted in hi

93 the experimental data over the full range of irradiation angles and wavenumbers.

94 Permanent defects, induced by irradiation, are primary structural changes, the accumul

95 s and vacancies produced in a material under irradiation as compared to equilibrium GBs.

96 patients with brain tumors undergoing brain irradiation, as well as in patients with untreated prima

97 Here, we present a shielded X-ray irradiation assay that allows us to follow stem cell mig

98 These results suggest that gamma-irradiation at 1-5kGy, might be recommended as a suitabl

99 The opposite trend was observed for irradiation at 310-410 nm, due to differences in UV abso

100 se reaction occurs rapidly in the dark or by irradiation at 340 nm.

101 embrane-spanning regions of the protein upon irradiation at 349 nm.

102 Irradiation at 365 nm results in a complete singlet to t

103 icantly higher swelling resistance under ion irradiation at 460 degrees C to 188 displacements per at

104 ba Buch.-Ham were submitted to electron beam irradiation at the doses of 0.5, 0.8 and 1kGy, to study

105 with TLI/ATS, lethal or sublethal total body irradiation/ATS/CTX, or CTX/ATS conditioning.

106 re limited, largely confined to chemical and irradiation-based etching of preformed nanostructures.

107 e skeletal muscle injury model combined with irradiation, bone marrow transplantation and in vivo ima

108 l products in the dark or under continued UV irradiation both resulted in nucleation and growth of SO

109 Under UV light irradiation, both at 273 and 298 K, JUC-62 showed 51% an

110 mass units (amu) in the aqueous phase after irradiation but were absent in dark controls.

111 tivable compounds/systems respond only to UV irradiation, but not near-infrared (NIR) light that offe

112 Upon irradiation by a near-infrared laser, the phase-change m

113 phosphine ligand, that can be activated upon irradiation by blue-LED lamps, we can achieve the coupli

114 Here, we present the effects of irradiation by protons, iron, and silver ions at MeV-lev

115 oliferative effect upon exposure of cells to irradiation by visible light, probably due to formation

116 Although neutron irradiation can induce transient vacancy-like defects in

117 Crystal defects generated during irradiation can result in severe changes in morphology a

118 It was also observed that ion irradiation caused a decrease in the Si-O-Si bond angle

119 otic stresses such as dark and ultraviolet C irradiation caused an increase in endogenous RCS and hig

120 Under irradiation, chemical species can redistribute in ways n

121 lent dose of drug, photosensitizer and light irradiation, combination therapy with SN-38-encapsulated

122 ficantly greater (24%) when exposed to light irradiation compared to an analogous control maintained

123 ith the delivery system and exposed to light irradiation compared to control cells maintained in the

124 an isolated atom under otherwise comparable irradiation conditions.

125 which is highly controllable under specific irradiation conditions.

126 for elevated apoptotic cell death under most irradiation conditions; however, DSBs were elevated only

127 Total body irradiation-containing preparative regimen was the only

128 nistration of PLT-AuNRs and localizing laser irradiation could effectively inhibit the growth of head

129 g this transformation deliberately using ion irradiation could enable new electronic applications.

130 rough localized heating by femtosecond laser irradiation deep inside 35Li2O-35Nb2O5-30SiO2 glass.

131 shown that with careful control of electron irradiation, defects in h-BN grow with pristine zig-zag

132 on-at-a-distance signaling of exosomes by UV irradiation, demonstrating that RNA is crucial for their

133 due to electronic excitations induced by ion irradiation determine the water dewetting properties.

134 An irradiation dosage-dependent formation of 2-ACBs was als

135 A single irradiation dose also caused synchronization of thymopoi

136 d pathogenic Enterobacteriaceae decreased as irradiation dose increasing from 0 to 10kGy.

137 nificantly decreasing the minimum total body irradiation dose required.

138 Na, K, Ca, Mg and Fe) were stimulated by the irradiation doses compared with the control.

139 The applied irradiation doses did not highly affect the nutritional

140 nzymes were significantly increased with the irradiation doses up to 2.0kGy.

141 ity and area for different grains at various irradiation doses were compared and revealed efficient d

142 (MDA) contents were stimulated by all tested irradiation doses.

143 evaluate the effectiveness of electron beam irradiation (EBI) exposure on CSP for microorganisms dec

144 dynamic response to the serum lipidome post-irradiation emphasize the importance of determining the

145 Irradiation exposure to amplify p53 levels further induc

146 tro and in vivo methods to verify that laser irradiation facilitated controlled release of both hydro

147 Upon exposure to UVB irradiation, fat-1 transgenic mice exhibited a significa

148 ssed profibrotic mediators at >/=25 wk after irradiation (fibrotic phase).

149 sh environmental conditions and 2 MeV proton irradiation fluences, ranging from 10(11) to 10(15) cm(-

150 After blue light irradiation for 10 min at 470 nm, the sample was reimage

151 inactivation of polychromatic germicidal UV irradiation for improving UV water disinfection.

152 ple and inexpensive system that, under solar irradiation, forms highly reductive radicals in the pres

153 DNP and spin diffusion period, the microwave irradiation frequency is quickly tuned on-resonance with

154 e-cell stage eggs, followed by a low dose of irradiation, frequently results in random integration of

155 be seen on both enamel and dentin even after irradiation; furthermore, typical toroidal gap patterns

156 ly, the coupling of ESI-MS with online laser irradiation has been successfully applied to probe the p

157 Exploiting the benefits that microwave irradiation has in chemistry is still hindered by a lack

158 to test the hypothesis that, after lymphoid irradiation, host CD8(+) DCs play a requisite role in to

159 In response to sublethal ultraviolet B (UVB) irradiation, human keratinocytes transiently block progr

160 n of CHK1 and CHK2 activation in response to irradiation, impaired G2 checkpoint proficiency and radi

161 pidly escorts it to the damaged DNA after UV irradiation in a DDB2-independent manner.

162 Here we show, by using in situ Kr ion irradiation in a transmission electron microscope at roo

163 emission of blue or green-yellow light upon irradiation in acetone and showed Stokes shifts in the r

164 -miR-125b, functions as sensitizers to gamma-irradiation in both a nematode in vivo model and breast

165 e implementation of systematic postoperative irradiation in clinical trials during the past 20 years

166 n this work, structural responses of neutron irradiation in metallic glasses (MGs) have been investig

167 r host-guest systems under ultraviolet-light irradiation in order to overcome the competition of faci

168 The importance of microwave irradiation in organic synthesis today is unquestionable

169 genesis triggered by replisome defects or UV irradiation in vivo was not decreased when dNTP synthesi

170 t is concluded that OTA is very sensitive to irradiation in water solutions but resistant in its dry

171 eir photochemical reactivity investigated by irradiations in aq CH3OH.

172 Microwave irradiation increased product degradation.

173 er and oceanic DOS molecular formulas, solar irradiation increased the similarity due to the removal

174 reatment in combination with temozolomide or irradiation increases cell death in glioma cells.

175 out to establish starch susceptibility to UV irradiation induced generation of free radicals.

176 dispersed ferritic alloys, the phenomenon of irradiation-induced Cr redistribution at the metal/oxide

177 ion during intestinal regeneration following irradiation-induced injury.

178 Knockdown of DDX41 increases basal and gamma irradiation-induced p21 protein levels without affecting

179 ction are multifaceted and it is unclear how irradiation induces persistent alterations in the brain.

180 thelial cells was preserved following lethal irradiation inducing RIGS.

181 and scalable methods which can convert solar irradiation into exploitable thermal energy with high ef

182 Alternatively, irradiation is a versatile means of evaluating defect in

183 s collectively indicated that, whereas solar irradiation is able to reduce total cell numbers, viable

184 Ultraviolet (UV) irradiation is an effective bacterial inactivation techn

185 Thus, the brain's response to proton irradiation is both specific and prolonged and involves

186 s that gGNR treatment plus Er-filtered x-ray irradiation is considerably more effective than radiatio

187 the potential response of the two phases to irradiation is different and taking account of other com

188 Among, the available technologies, irradiation is gaining interest as a feasible preservati

189 planets and, given the level of ultraviolet irradiation it experiences, its atmosphere is unlikely t

190 e and imine functionalities under sensitized irradiation leads to azetidine products in good yield an

191 Our ToF-SIMS results show that He ion irradiation leads to oxygen penetration into the irradia

192 gamma-Irradiation led to a decrease in the concentration of ga

193 ice with apoptotic spleen cells generated by irradiation led to DC changes similar to those induced b

194 tate of Mn2(CO)10, which, like under near-UV irradiation, led to complete release of carbonyls.

195 HSF1, protects against the development of UV irradiation-mediated cutaneous squamous cell carcinoma i

196 and rapamycin (Rapa) plus 100 cGy total body irradiation (MR1/Rapa/100 cGy) and transplanted with all

197 After irradiation, NC iron with non-equilibrium GBs contains b

198 cles are then stabilized through ultraviolet irradiation of a photo-crosslinkable unnatural amino aci

199 UV irradiation of a pyridine solution of the Fe(II) azide [

200 Irradiation of cultured human melanocytes with UVB stimu

201 Here we demonstrate that irradiation of cyclic 2-aryloxyketones with blue LED lig

202 Irradiation of cyclopropenone-masked dibenzocyclooctynes

203 (51)Mn was produced by proton irradiation of electrodeposited isotopically-enriched (5

204 al isotope (99m)Tc, is currently produced by irradiation of enriched uranium in nuclear reactors.

205 primary organ at risk in radioimmunotherapy; irradiation of marrow may induce short- and long-term he

206 Irradiation of nanoscale clusters and large molecules wi

207 Irradiation of nonanol did not yield detectable VOC or S

208 Microbeam irradiation of sensorimotor cortex did not affect weight

209 d, aiming on the combined benefit of a local irradiation of the analyzed sample and a microelectrode

210 -generated electron is transferred following irradiation of the anatase sample with UV light.

211 ere randomized to either sham irradiation or irradiation of the atrioventricular junction (55, 50, 40

212 We previously found that UVB irradiation of the cornea caused the imbalance between t

213 hereby, heat generation resulting from laser irradiation of the HNPs promoted linker breakdown result

214 In combination with a novel means of irradiation of the interrogated sample, local analysis o

215 ry (ESI-MS) in combination with online laser irradiation of the reaction mixture.

216 nonhazardous photocatalyst Rose Bengal under irradiation of visible light.

217 s were sacrificed to evaluate the effects of irradiation on brain tissues by histology and immunohist

218 In this study, low energy helium ion irradiation on free-standing iron thin films were perfor

219 ignificant cytotoxicity in the dark or under irradiation on nontumorigenic NCTC-2544 keratinocytes.

220 For that reason, the effect of proton irradiation on photoelastic coefficients of GaAs is of p

221 Overall, the impact of irradiation on the hematopoietic lineage was more severe

222 mechanism for methanol oxidation under 1 sun irradiation on these metal oxide surfaces and discuss th

223 ctivity and for activity in combination with irradiation or chemotherapy (gemcitabine or docetaxel).

224 AND Ten pigs were randomized to either sham irradiation or irradiation of the atrioventricular junct

225 Here, we show that irradiation or ligand-induced TIE2 trafficking is depend

226 o (99.815%) with a cyclotron (24 MeV; 2 h of irradiation) or supplied by a commercial manufacturer (b

227 tor more often than relative humidity, solar irradiation, or temperature.

228 luate the effects of electron-beam and gamma irradiation over the phenolic profiles of two plant spec

229 melanomas, long-term efficacy of proton beam irradiation (PBI) of large choroidal melanomas has not b

230 sue radioprotection by lead shielding during irradiation preserves normal macrophage transition dynam

231 nic or spintronic applications requiring ion irradiation processing.

232 t to triplet interconversion, whereas 450 nm irradiation produces again up to 20% of the singlet stat

233 ha-ketocarbonyls in neat conditions under MW irradiation promoted by DABCO as a solid organobase has

234 e gas proxy isotopes produced during neutron irradiation provide a high-sensitivity tool for the dete

235 of the catalyst, which, together with the UV irradiation, provides orthogonal means to control the E/

236 Three months after irradiation rats were sacrificed to evaluate the effects

237 terion is highly labile and by visible or IR irradiation rearranges via a 1,2-fluorine migration from

238 Total body irradiation reduced numbers of proliferating crypts in A

239 ht on the development of materials with high irradiation resistance.

240 insights that may aid in the development of irradiation resistant oxide-dispersed ferritic alloys.

241 iciently released into the cytosol under NIR irradiation, resulting in enhanced anticancer activity.

242 GAG from a SELP matrix administered prior to irradiation significantly reduced radiation-induced pain

243 Here, the thermal and irradiation stability of the FeCr/Y2O3 interface has bee

244 nd implement a photolabile probe, which upon irradiation strengthens the negative feedback loop of a

245 mo-PTT therapy of ICG-EPI NPs with NIR laser irradiation synergistically induced apoptosis and death

246 Total body irradiation (TBI) damages hematopoietic cells in the bon

247 using AZ31 prior to 9 or 9.25 Gy total body irradiation (TBI) reduced median time to moribund in mic

248 60 mg/kg per day for 2 days, and total body irradiation (TBI).

249 Femtosecond (fs) pulsed laser irradiation techniques have attracted interest as a phot

250 Accelerator-based ion beam irradiation techniques have been used to study radiation

251 under Ultraviolet-visible (UV-visible) light irradiation that allows the detection of very low concen

252 ((1) O2 ) in mitochondria under white light irradiation that can serve as a highly effective radiose

253 Our group previously reported that, upon irradiation, the membrane-bound tyrosine kinase receptor

254 ytic hydrogen generation under visible light irradiation, the presence of MoS2-rGO hybrids enhanced t

255 Upon UV irradiation, this complex undergoes a clean photoreducti

256 wisting deformations can be created under IR irradiation, through modulating the strain direction in

257 s a chromophore and dimers are reformed upon irradiation, thus allowing optical healing of mechanical

258 adjusted by varying the laser intensity and irradiation time.

259 rently relies on passive transport and local irradiation to avoid off-target oxidation.

260 ne-electron reduction of MV(2+) ions upon UV irradiation to form MV(+*) radical cations within the cr

261 We used a rat model of whole thorax x-ray irradiation to profile the microRNA (miRNA) in lung and

262 ip is less efficient than high-energy Er:YAG irradiation to remove the plaque and TiO2 layer on anodi

263 ntal lineC hydrogen bond are converted by UV irradiation to the Z-isomers having bifurcated O-H...O..

264 Proton beam irradiation (total 70 Gy) delivered in 5 equal fractions

265 Upon visible-light irradiation, typical mono- and multi-substituted aromati

266 suppression of thymopoiesis after sublethal irradiation was primarily due to fewer progenitors in th

267 st-conserving surgery (BCS) and whole-breast irradiation (WBI), who were randomized between no boost

268 By changing the timing and duration of irradiation, we can tailor the temporal response of the

269 idopsis seedlings before and after red-light irradiation, we identified a number of influential prote

270 e the irradiated field at 1 and 4 days after irradiation, we monitored oxidatively induced clustered

271 The effects of irradiation were also studied by UV spectroscopy.

272 tion, and network stability following proton irradiation were observed at the two-week time point and

273 synthesis of stilbenes is induced after UV-C irradiation, whereas a more localized synthesis of stilb

274 tiotemporal control provided by pulsed laser irradiation, while avoiding the phototoxicity problems e

275 ow MC1R activity is modulated by ultraviolet irradiation, why individuals with red hair are more pron

276 ss-linking (epithelial removal and 30-minute irradiation with 3 mW/cm(2) ultraviolet A light).

277 itching directions, i.e. >90% E isomer after irradiation with 470 to 530 nm light and 99% Z isomer wi

278 range of 100-160 degrees C under pulsed beam irradiation with 500 keV Ar ions when the total ion flue

279 tial resolution through selective helium ion irradiation with a well-controlled dose.

280 nd thymus; however, the long-term effects of irradiation with aging remain unclear.

281 chiometric amount of triphenylphosphine upon irradiation with blue light.

282 The irradiation with heavy ions at 10(16) ions/cm(2) convert

283 Irradiation with laser light above the photobleaching th

284 atural resins exposed to artificial aging by irradiation with light.

285 otently cytotoxic to cancer cells upon brief irradiation with low doses of visible light, and potent

286 spun nonwoven fabrics, CO was liberated upon irradiation with low-intensity red light (</=36 mW 635 n

287 nown for a long time to be photochromic upon irradiation with red light, which should be advantageous

288 tions of superoxide and hydrogen peroxide on irradiation with simulated sunlight in a manner consiste

289 ers catalyzed by fac-Ir(ppy)3 under blue LED irradiation with subsequent one-pot condensation with am

290 l principles of the interaction of microwave irradiation with the components of a reaction.

291 Although whole gut irradiation with these doses caused lethal GI syndrome,

292 NO2 reacted with HA that was photoreduced by irradiation with UV-visible light compared to the dark r

293 e/opening of the central dithienylethene via irradiation with UV/visible light.

294 t state by washing out the betaME or through irradiation with violet light, with up to 80% total reco

295 ) exists to 48% and closes quantitatively by irradiation with visible light, while the reverse reacti

296 icient crossed additions were achieved under irradiation with visible light.

297 otane therapy within 6 months, and pituitary irradiation within 10 years.

298 teen HKGs was measured at 5 min to 48 h post-irradiation within a given tissue.

299 mice received a single dose of whole thorax irradiation (WTI, 15 Gy).

300 hality following high-dose whole-thorax lung irradiation (WTLI).