ライフサイエンスコーパス: biological response

1 ported and used to characterize toxicity (or biological response).

2 is enable correlating surface chemistry with biological response.

3 he enzymatic properties of LGP2 regulate its biological response.

4 identify genes that may jointly influence a biological response.

5 domain to elicit the desired light-activated biological response.

6 ote the consistent use and interpretation of biological response.

7 cess by converting the mechanical cue into a biological response.

8 driving penetration, but with limited added biological response.

9 ts signal transduction in vivo and elicits a biological response.

10 ts at molar concentrations likely to evoke a biological response.

11 comparable degree of toxicity and a similar biological response.

12 cular variables that may jointly influence a biological response.

13 model in which signal duration determines a biological response.

14 ude and, in some cases the direction, of the biological response.

15 te times to coordinate a rapid and important biological response.

16 ade of events that culminates in the desired biological response.

17 e maximizing the speed and efficiency of the biological response.

18 ol uptake may play a substantial role in the biological response.

19 nches of calcineurin signaling in an overall biological response.

20 ngers may represent how cells/organisms tune biological response.

21 te time and space in order to elicit a given biological response.

22 f the nanosheet and soluble fractions in the biological response.

23 ransforming an oxidant signal into a dynamic biological response.

24 emical interactions between ENMs and various biological responses.

25 N-sensitive genes and induction of IFN-alpha biological responses.

26 egulation in generating robust and adaptable biological responses.

27 d receptor trafficking and hormone-dependent biological responses.

28 eotides with P2 receptors, controls multiple biological responses.

29 dulate the effects of ocean acidification on biological responses.

30 oding RNAs (lncRNAs) are novel regulators of biological responses.

31 Nodal/TGFbeta signaling regulates diverse biological responses.

32 d GM-CSF, use the JAK/STAT pathway to induce biological responses.

33 as consequent effects on FGFR1 signaling and biological responses.

34 ts to test the impact of complex mixtures on biological responses.

35 have to be integrated to achieve appropriate biological responses.

36 GR ligand-binding domain suffices for these biological responses.

37 reaction that translates external cues into biological responses.

38 of its signaling pathway to shape different biological responses.

39 isms where stretching of proteins results in biological responses.

40 generation of protein products that mediate biological responses.

41 ram that touches upon a bewildering array of biological responses.

42 ntitative relationships between exposure and biological responses.

43 m to establish phosphorylation thresholds in biological responses.

44 sively affect ligand efficacy and subsequent biological responses.

45 to regulate target genes linked to specific biological responses.

46 ely control induction of Type I IFN-mediated biological responses.

47 velopment of unique and potent effectors for biological responses.

48 ent are often used to confirm drug-on-target biological responses.

49 ells to translate external cues into diverse biological responses.

50 ative pathways between molecular signals and biological responses.

51 ack regulator of BMP-7 but not BMP-6-induced biological responses.

52 ream signaling propagation and corresponding biological responses.

53 systems target the miRNA pathway to achieve biological responses.

54 s expressed widely and implicated in diverse biological responses.

55 nt times and locations, resulting in diverse biological responses.

56 e role of PI3K in the control of IFN-induced biological responses.

57 g how IL-6 signal transduction translates to biological responses.

58 s of the two forms eliciting quite different biological responses.

59 hemical properties of materials can regulate biological responses.

60 providing sufficient information to predict biological responses.

61 d regulates critical aspects of cellular and biological responses.

62 dual genes, groups of genes and the eventual biological responses.

63 nd methodological approaches for quantifying biological responses.

64 lters nanomaterial properties, function, and biological responses.

65 l chemokine receptors and to elicit critical biological responses.

66 be an important ingredient in many types of biological responses.

67 with amphiphilic membranes and modulation of biological responses.

68 pression, protein stability, and IFN-induced biological responses.

69 r but are capable of differentially inducing biological responses.

70 insic and intrinsic cues and elicit distinct biological responses.

71 them from more interesting cases of altered biological responses.

72 ase conditions, which may result in variable biological responses.

73 veral noble gasses have been shown to elicit biological responses.

74 and their downstream effectors to fine-tune biological responses.

75 to ambient aerosol could help identify acute biological responses.

76 ultiple levels that allow fine-tuning of key biological responses.

77 IFN-gamma-induced STAT1 phosphorylation and biological responses.

78 PRMT1 is required for BMP-induced biological responses across species, as evidenced by the

79 ility of a single occupancy to elicit a full biological response adapts alpha7 to volume transmission

80 e cells exposed to PY-ITC or SF have similar biological response, albeit PY-ITC alters a greater numb

81 ther of Ihog), is absolutely required for Hh biological response and for sequestration of the Hh prot

82 tial progenitor cells, the latter displaying biological responses and a gene expression signature ind

83 MicroRNAs are fine tuners of diverse biological responses and are expressed in various cell t

84 (NP) physico-chemical properties can dictate biological responses and interactions, it has been diffi

85 ed membrane vesicles, relevant to a range of biological responses and known to be elevated in cardiov

86 and to investigate the relationship between biological responses and mechanical stimuli.

87 he contribution of G(i/o) members in complex biological responses and open the way to the development

88 cells as a model to study C5a/C5aR2-induced biological responses and signaling in human mast cells.

89 non-coding RNAs (lncRNAs) regulate a variety biological responses, and that they do so by a diverse r

90 In hypoxia, biological responses are activated that evoke tissue dam

91 and its nuclear translocation and subsequent biological responses are believed to be regulated by pho

92 The differences in biological responses are likely a result of different ph

93 It has become apparent that these biological responses are regulated by complex chemical r

94 with the silty loam sediment did not show a biological response at 7 days and only realized a signif

95 DC chemical can cause qualitatively distinct biological responses at different doses.

96 stems, identifying the key processes driving biological responses at very large spatial scales.

97 ools hold considerable promise to be used in biological response based mechanistic profiling of poten

98 ocean transport simulations, we investigated biological responses based on histories of magnitude and

99 14-3-3 proteins regulate a diverse set of biological responses but developmental phenotypes associ

100 en integrated by proteins that fine-tune the biological response by modulating the activity of the ki

101 inal peptide (VIP) mediates a broad range of biological responses by activating two related receptors

102 ed that insulin and IGF-II could affect IR-A biological responses by differentially regulating IR-A t

103 Ecdysone regulates biological responses by directly initiating target gene

104 proNGF and mature NGF initiate opposing biological responses by utilizing both distinct and shar

105 ant uses interpreted from a perspective of a biological response can reveal different phylogenetic pa

106 derstanding their behaviors and interpreting biological response data.

107 insulin signaling, which initiates a set of biological responses dependent on the species.

108 tifunctional receptor that mediates distinct biological responses depending upon cell context.

109 of the targeted and traversed tissues whose biological responses determine treatment outcome.

110 ments, has improved our understanding of the biological responses during droughts and contributes to

111 ing candidate for evoking large photoinduced biological responses during the multiphoton operation of

112 Indeed, whereas many biological responses elicited by Gq depend on the transi

113 The broad range of biological responses elicited by transforming growth fac

114 Through linking exposures to specific biological responses, exposome research could serve to i

115 e-dimensional cultures to elicit the desired biological responses from hHpSCs.

116 has been invoked to explain a large range of biological responses, from control of left-right axis de

117 cteristics and induced different patterns of biological response generated different signatures.

118 of the test chemicals based on the different biological responses (growth, energy use, and gene trans

119 utility in the high-throughput evaluation of biological responses; however, they lack the complexity

120 leasing hormone receptor (CRH-R1) influences biological responses important for adaptation to stressf

121 have shown initial promise as biomarkers of biological response in early studies of potential treatm

122 nduit for transducing mechanical forces into biological responses in cartilage.

123 CB1 and CB2, with high affinity and elicited biological responses in cultured cells expressing CB rec

124 are emerging as critical platforms for many biological responses in eukaryotic cells.

125 /CaV2 channels couples electrical signals to biological responses in excitable cells.

126 cial signaling molecule that elicits diverse biological responses in host cells thought to subvert im

127 anism of toxicity was explored via comparing biological responses in parallel experiments.

128 Cells regulate biological responses in part through changes in transcri

129 Glucocorticoids elicit a variety of biological responses in skeletal muscle, including inhib

130 ess the Ca2+ signals to generate appropriate biological responses in the heart.

131 relationships between geochemical events and biological responses in the open ocean.

132 d was associated with an immediate change in biological responses in the receiving environment.

133 of historical sites could yield estimates of biological responses in the short term and should be pri

134 addition, PlGF induced VEGFR-1 signaling and biological responses in tumor cell lines sensitive to an

135 les of MCs and MC-associated products during biological responses in vivo, and comments on some of th

136 multiple cytokine and growth factor-induced biological responses in vivo.

137 ation is a universal mechanism to turn off a biological response; in this process, the ability of a p

138 WEAK cytokine has been implicated in several biological responses including inflammation, angiogenesi

139 As such, TLRs regulate a wide range of biological responses including inflammatory and immune r

140 interact with environmental cues to modulate biological responses including treatment responses, and

141 rts these signals into a variety of specific biological responses, including cell differentiation, ce

142 s have now been shown to mediate a number of biological responses, including hypoxic vasodilation, cy

143 genes play pivotal roles in a wide range of biological responses, including neuronal survival and pl

144 rette smoke are sufficient to induce adverse biological responses increasing the risk of cardiovascul

145 for extracellular NAD(+) (eNAD(+)) to evoke biological responses, indicating that eNAD(+) may be sen

146 uggesting that they could be involved in the biological responses induced by this neurotrophin.

147 However, whether biological responses initiated via this receptor generat

148 efficacy studies of drugs that modulate glia biological responses involved in pathology progression a

149 addition to site location within a protein, biological response is also determined by the degree (mo

150 The specificity of the biological response is likely to be controlled in large

151 However, it remains unknown how a myriad of biological responses is achieved with a single G protein

152 ng the relationship between metal uptake and biological responses is the ability to accurately measur

153 to regulate specific signaling pathways and biological responses is unclear.

154 d insulin concentration reflects an impaired biological response--is present and is considered a key

155 tively trigger a subset of receptor-mediated biological responses leading to the improvement of insul

156 ariable lags in the timing of a physical and biological response led to impacts in the northern Calif

157 These differences between biological responses mean that sustained directional cha

158 tionally related genes, to hypothesize about biological response mechanisms and to highlight conditio

159 scular beds, as well as through secretion of biological response modifiers and recruitment of immune

160 Issues concerning the safety of the use of biological response modifiers in inducing sarcoidosis ne

161 une-modulatory agents, cytostatic drugs, and biological response modifiers.

162 uct with either leukocyte allo-antibodies or biological response modifiers.

163 eening of anticancer therapeutics, including biological response modifiers.

164 the ability of some antibodies to elicit the biological response normally associated with a specific

165 Contrary to the biological response observed using SWCNTs separated by d

166 s are the primary factor driving the adverse biological responses observed from P. subcapitata cells

167 tempt to correlate these properties with the biological responses observed post vaccination.

168 Activation of complement and the subsequent biological responses occur primarily in the extracellula

169 onal interactions between PLD and Rac in the biological response of cell migration.

170 ncogene-induced DNA replication stress, is a biological response of cells in human cancer precursor l

171 ffect this complex assembly and modulate the biological response of cells to FGF.

172 erent under perfusion, indicating a distinct biological response of cultures grown under static condi

173 Many studies have focused on the biological response of terrestrial taxa and habitats to

174 We assessed the biological responses of a panel of human cell lines to P

175 mber proved suitable for testing DEA-induced biological responses of cells at the ALI using electrode

176 tors serves as a central requirement for the biological responses of fibroblasts to TGF-beta.

177 t that RGS13 restricts certain GPCR-mediated biological responses of human mast cells.

178 However, little is known of the biological responses of human MSCs to inflammatory condi

179 R-dependent translational control during the biological responses of human myeloid cells.

180 Biological responses of human skin to UVR including canc

181 ied model systems with the goal of mimicking biological responses of intracellular circuits.

182 of current forensic analytical chemistry and biological responses of keystone ecological species in o

183 analysis (PLS-DA), were used to compare the biological responses of M. spretus living in three areas

184 staglandins, a critical process in mediating biological responses of mechanical loading on bone forma

185 results show significant differences in the biological responses of P. subcapitata exposed to high p

186 ant immunity by characterizing molecular and biological responses of the knockout mutant and overexpr

187 ndetectable level) and could elicit cellular biological responses on c-MET-expressing ovarian cancer

188 lecular recognition processes, which trigger biological responses or cell-adhesion to surfaces, and a

189 across a series of time points covering the biological response permits interrogation of signaling t

190 For some biological responses (plant productivity), responses to

191 posure to environmental xenobiotics evokes a biological response promoting cancer aggressiveness and

192 Of the 545 biological responses recorded, a single physical or chem

193 ipase C (PLC) is a central effector for many biological responses regulated by G-protein-coupled rece

194 ceptor for lipoxin A4) sustains a variety of biological responses relevant to the development and con

195 pecific target genes to induce IFN-dependent biological responses remain ill defined.

196 ordination in the generation of IFN-mediated biological responses remain unknown.

197 l health, the relationship between force and biological response remains elusive.

198 n of each IFN-stimulated gene (ISG) to these biological responses remains to be completely understood

199 ipids with similar group heads into distinct biological responses remains unclear.

200 GP-BAR1/FXR dual agonists, by enhancing the biological response, represent an innovative strategy fo

201 ct of RTK stimulation to facilitate specific biological responses represents a fundamental biological

202 Hence, rather than serving to turn off a biological response, reversible desensitization of a Ca(

203 ffer a new path toward investigating initial biological responses, screening for drugs, and shortenin

204 We highlight examples of natural biological responses spanning the cellular, population a

205 Using an intragradient point of comparison, biological responses specifically associated with the WW

206 ide range of tissues, resulting in different biological responses such as anticancer activity.

207 These results suggest that biological responses, such as microbial stress and biofi

208 have different specificities for ligands and biological responses that can be exploited for designing

209 their multifaceted role in the modulation of biological responses, the involvement of EVs in vascular

210 ugh TWEAK has been shown to modulate several biological responses, the TWEAK-induced signaling pathwa

211 derived neurotrophic factor (BDNF)-dependent biological responses through direct interaction with Trk

212 ive H-Ras initiates a wide spectrum of other biological responses through multiple downstream effecto

213 sses environmental exposures and concomitant biological responses throughout the life course.

214 cells, we can push the detection time to the biological response time of the bacteria.

215 These in vitro results identify a novel biological response to a class of antiglaucoma drugs, an

216 Here we present a combined sedimentary and biological response to an ecosystem collapse in Triassic

217 The biological response to aneuploidy is associated with cel

218 The biological response to antiplatelet drugs has repeatedly

219 onse explains at least in part the different biological response to BCL6 expression in centroblasts v

220 ouse Mus spretus has been used to assess the biological response to contaminants in the relevant ecol

221 the capacity of DP receptors to amplify the biological response to CRTH2 activation.

222 to FVIII concentrates, but the heterogenous biological response to desmopressin, showing large inter

223 These data suggest that the differences in biological response to different EGF receptor ligands ma

224 The biological response to DNA double-strand breaks acts to

225 cted complexity and dynamic behaviour in the biological response to drug-induced liver injury.

226 drug discovery, with the potential to sculpt biological response to favor therapeutically beneficial

227 g CD4 T lymphocytes dynamically shapes their biological response to HIV.

228 p-regulation, which leads to an orchestrated biological response to hypoxia.

229 timulated with nCup a 1 and tested for their biological response to IL-33 in coculture assays.

230 The biological response to increased consumption of palatabl

231 se of sex differences in quality of care and biological response to infection, and these differences

232 ronic inflammatory disorders, we studied the biological response to inflammation in KLF2(+/-) mice.

233 n of endotoxin-free HA (25 mug) enhances the biological response to inhaled LPS in a manner similar t

234 ts of hyaluronan (HA) as contributors to the biological response to inhaled ozone.

235 al of organ development is essential for the biological response to injury by mature cholangiocytes.

236 e and whole organ regeneration is a dramatic biological response to injury that occurs across differe

237 s compared with P(max)(b) in controlling the biological response to iron addition has vast implicatio

238 conditions tested, implicating c-MYC in the biological response to metabolic stress.

239 by myosin motors, which would be an expected biological response to overcome the limitation of a diff

240 ome proteins ASC, caspase1, and Nlrp3 in the biological response to ozone and HA.

241 CR1, and appear to protect the host from the biological response to ozone.

242 conditions to provide new insights into the biological response to plant stress conditions.

243 dies to advance understanding of the complex biological response to severe infection, a problem of gr

244 formation of nonuraninite U(IV) is due to a biological response to solute presence during U(VI) redu

245 is often associated with zinc (Zn), and the biological response to such mixed contamination is compl

246 blations provides a new understanding of the biological response to surface ablation techniques and s

247 nding the chemistry of DNA oxidation and the biological response to the damage, with DNA damage recog

248 rom exposure to hepatotoxicants is a complex biological response to the injury.

249 d provide insight into the complexity of the biological response to the seemingly simple physical eve

250 The biological response to tumor necrosis factor (TNF) invol

251 onolayers and examining their mechanical and biological response to uniaxial stretch.

252 cades ahead of the global average, such that biological response to urbanization may predict response

253 l recapitulates the G2 delay observed in the biological response to varying levels of a DNA damage si

254 vascular inflammation and contributes to the biological response to vascular injury by promoting leuk

255 e data suggest the possibility of an altered biological response to vein grafting in this population;

256 to identify confounders and modifiers of the biological response to vitamin D, including dietary fact

257 iew covers the most recent literature on the biological responses to 2D materials and also draws from

258 However, biological responses to a local force in embryonic stem

259 Biological responses to as-APF were suppressed by increa

260 al disciplines by tracking studies examining biological responses to changing ocean conditions.

261 ion of maturing thymocytes via modulation of biological responses to chemokine gradients.

262 rporating the realistic processes underlying biological responses to climate change and other human-c

263 l differences between the sexes in mediating biological responses to climate change.

264 Understanding of nonlinearity in the biological responses to climate warming is needed to ass

265 n rapidly generate highly accurate models of biological responses to complex interactions among envir

266 ive screening technique for the detection of biological responses to different emerging contaminants

267 activated transcription factor that mediates biological responses to endogenous and environmental che

268 aptation is therefore crucial for predicting biological responses to environmental change.

269 Biological responses to estrogens in normal and malignan

270 r TDI conjugation and, thus, could influence biological responses to exposure and the development of

271 eptors have been implicated in mediating the biological responses to HMGB1, but the mechanism of HMGB

272 may also play a critical role in modulating biological responses to ionizing radiation.

273 ghtened interest in better understanding the biological responses to jet lag and shift work, with the

274 e, for the first time, that neural stem cell biological responses to laminin are dependent on topogra

275 etrapyrrole (bilin) chromophores to regulate biological responses to light.

276 ition to improving sensitivity for detecting biological responses to low-level xenobiotic exposures,

277 Biological responses to methane-oxygen respirations were

278 functions as a downstream effector of these biological responses to miR-296-5p and regulates Sox2 ex

279 eed for an improved understanding of dryland biological responses to N deposition, we conducted a two

280 ikR, and RcnR, employed to generate specific biological responses to nickel ions.

281 esizing the results of 228 studies examining biological responses to ocean acidification.

282 coupled receptor that has been implicated in biological responses to pain, stress, anxiety, and depre

283 'omic' methods provide sensitive measures of biological responses to perturbations.

284 used extensively for probing the downstream biological responses to PKC targeted ligands.

285 approach comes from the ability to identify biological responses to pollutant exposure, particularly

286 ce of genetic variants of Tgfbm genes alters biological responses to reduced TGFbeta1 signaling in an

287 erties which may be relevant when evaluating biological responses to statins.

288 ms of the human body and only poorly reflect biological responses to the treatment.

289 We asked whether one or more biological responses to TSP1 might be explained through

290 two complementary approaches to predict soil biological responses to vertebrate herbivores, one focus

291 verall, our data identify heretofore unknown biological responses to VPA in budding yeast, and highli

292 uence of specific DNA repair proteins on the biological response toward DNA damage during transcripti

293 What new trends in the biological responses triggered by these photoreceptors a

294 were examined for the presence of Ag and for biological responses up to 56 days post-exposure (8 week

295 a lysophospholipid that evokes a variety of biological responses via stimulation of a set of cognate

296 d IGF-1 receptors exert specificity in their biological responses, we assessed their role in the regu

297 The most frequently studied biological responses were changes in physiology (31%) an

298 cells are able to produce a wide variety of biological responses when subjected to biochemical stimu

299 To synchronize biological response with environmental stimulus, switchi

300 ACh with low affinity, and thus elicits its biological response with low agonist occupancy.