ライフサイエンスコーパス: transformation

1 iver activate divergent pathways and subvert transformation.

2 .146) in the GHP patients who had neoplastic transformation.

3 involves both myeloid and erythroid lineage transformation.

4 hosphorylation of NRAS to enhance melanocyte transformation.

5 reas nitrate-reducing cultures showed no SMX transformation.

6 c state, which in turn defines that chemical transformation.

7 and environmental changes, drives leukaemic transformation.

8 ffold, frequently perturbed during oncogenic transformation.

9 oliferation, setting the stage for oncogenic transformation.

10 omote oligodendroglioma growth and malignant transformation.

11 es and amplify PI3K signalling for malignant transformation.

12 last step required for stable plant genetic transformation.

13 e with MYC in mitogenic activation and liver transformation.

14 sults in their immortalization and malignant transformation.

15 cle development and implicated in neoplastic transformation.

16 be useful in designing and predicting future transformation.

17 d distribution of test results after Box-Cox-transformation.

18 d method with a Freeman-Tukey double arcsine transformation.

19 d suggests UBR5 mutations play a role in MCL transformation.

20 been associated with cholangiocyte malignant transformation.

21 enetic origin and illuminates its remarkable transformation.

22 port here the first general approach to this transformation.

23 i construct employing Agrobacterium-mediated transformation.

24 hoproliferative disorders from MF large-cell transformation.

25 ation that plays a major role in the sol-gel transformation.

26 atic mutations (sM) must occur for malignant transformation.

27 ell receptor (BCR) mimic promoting malignant transformation.

28 ted ketones constitutes a powerful synthetic transformation.

29 equently defines the success or failure of a transformation.

30 , corresponding to before, during, and after transformation.

31 ty, mitochondrial biogenesis, and fiber type transformation.

32 versa, indicating allocentric-to-egocentric transformation.

33 on, which is an alternative method to stable transformation.

34 samples that disintegrated into powder upon transformation.

35 n gem-dialkyl groups has remained an elusive transformation.

36 ication to suppress this unwanted structural transformation.

37 immunity against virus infection and plasmid transformation.

38 p62-NRF2 axis, resulting in epithelial cell transformation.

39 o infection may reduce the risk of malignant transformation.

40 bbs free energy is the driving force for the transformation.

41 scence markers, confirming susceptibility to transformation.

42 insertion, cyclopropanation, and many other transformations.

43 a key step in a diverse range of main group transformations.

44 e energetic degeneracy and provide selective transformations.

45 rd in the design of catalysts for asymmetric transformations.

46 S can play a significant role in contaminant transformations.

47 outline three distinct periods of population transformations.

48 ocess involving a minimal number of chemical transformations.

49 perform an incredibly wide range of chemical transformations.

50 iant with respect to quantum reference frame transformations.

51 nderstanding of these photoinduced synthetic transformations.

52 by chemical exposure history and NP surface transformations.

53 ns are explored as catalysts in five organic transformations.

54 tify natural biocatalysts for novel chemical transformations.

55 entation process for mimicking barrel ageing transformations.

56 ough application of the wide family of click transformations.

57 In 3 patients, MGUS underwent malignant transformation 24 to 144 months after diagnosis, in 1 pa

58 ow, none of them could catalyze its chemical transformation, a classical task for transition metals.

59 ietary patterns were extracted using treelet transformation, a data-driven hierarchical clustering an

60 for citrus including PEG-mediated protoplast transformation, a GFP reporter system that allows the ra

61 ion to kinetic analysis of a wide variety of transformations (acylation, S(N)Ar, silylation, solvolys

62 Overall, this unprecedented transformation, albeit at the proof of concept level, of

63 icroscopy and its two-dimensional (2D)-to-3D transformation algorithm to provide an effective approac

64 These transformations allow rapid access to oxidatively transp

65 lized for the first time in this challenging transformation, allowing streamlined access to an import

66 This transformation allows for the efficient benzylic oxidati

67 Oncogenic transformation alters lipid metabolism to sustain tumor

68 onsidered to be an important but challenging transformation, although it is a common critical process

69 GWAS analysis, such as outlier removal, data transformation and calculation of Best Linear Unbiased P

70 apted to support cell processes required for transformation and cancer progression.

71 nd distance from the FTA, suggesting in situ transformation and differential transport.

72 rsion of endocytic routes leads to malignant transformation and has been implicated in human cancers.

73 de insights into the pathogenesis of myeloid transformation and how clonal complexity evolves with di

74 However, the molecular basis for this transformation and its distribution among gut microorgan

75 able, untethered, fast, and reversible shape transformation and locking, are highly desirable for a p

76 e but also plays a critical role in leukemia transformation and maintenance.

77 Phase transformation and morphology were observed by powder-X-

78 vity is directly involved in tactile-spatial transformation and suggest instead that it reflects dela

79 nvironment is sufficient to promote leukemic transformation and survival in both a cell autonomous an

80 r understanding of fungal roles in metalloid transformations and are relevant to the geomicrobiology

81 In order to assess their fate, possible transformations and ecotoxicology-essential information

82 ave enabled previously inaccessible chemical transformations and have been widely used in both academ

83 th their environment, undergoing biochemical transformations and moving through the soil pore space.

84 on the mechanistic aspects of the discussed transformations and their applications to the deconstruc

85 They captured 3 transformation approaches: maximizing the HIV care workf

86 me changes associated with this polyamorphic transformation are positive and negative, respectively,

87 i-ion mediated reversible thiolate/disulfide transformation are unknown.

88 In this study, we found that practice transformations are a potential strategy for addressing

89 gid-body respiratory motion and the computed transformations are applied to the corresponding diagnos

90 Such transformations are ascribed to modifications of the col

91 adical cross-couplings and the design of new transformations are discussed.

92 to the end of 2019, yet relevant pioneering transformations are eventually included.

93 Transformations are promoted by a readily accessible l-t

94 talysis for the development of redox-neutral transformations are rare.

95 g metathesis processes, which are reversible transformations, are efficient.

96 ere found to not undergo any physicochemical transformation, as shown via previous energy-dispersive

97 Transient transformation assays and expression analyses in mutants

98 Transcriptome analyses and cell transformation assays further establish a significant RU

99 The bone marrow senses distant tissue transformation at premalignant/preinvasive stages, sugge

100 wever, very few show a reversible structural transformation at room-temperature.

101 wever, mechanisms for preferential malignant transformation at the junction areas remain insufficient

102 c and -extrinsic mechanisms driving leukemic transformation at this level remain poorly understood.

103 ological baselines with data on paleoclimate transformations at a human timescale.

104 alyses reveal the noncanonical nature of the transformations at the core of the events that define th

105 hium continuously by means of solid-solution transformation because they have few kinetic barriers ap

106 The polyamorphic transformation between these two phases involves opening

107 s is a hallmark of energy-efficient chemical transformations, but can only be achieved if the changes

108 established as powerful reagents in organic transformations, but so far only a handful of studies ha

109 We demonstrate the utility of this transformation by aminating a large set of terpenoids in

110 ilus (T4aP) is thought to facilitate natural transformation by extending from the cell surface, bindi

111 anding of the molecular mechanism underlying transformation by HPV.

112 map organization may facilitate hierarchical transformations by allowing neural populations to intera

113 tool for the precise monitoring of chemical transformations by hyperpolarized NMR spectroscopy.

114 is study, we examined the impact of practice transformations, defined as efficiencies in structures a

115 orimetry analysis on the reversible isomeric transformation demonstrates that the Gibbs free energy i

116 The bulb-to-cortex transformation depends on the associative network origin

117 This synopsis describes the key transformations developed recently.

118 step process of tumorigenesis, from cellular transformation, disease progression to metastatic diseas

119 SNPs, while our decorrelation by orthogonal transformation (DOT) method yields steady gain in power.

120 s undergoing a conceptual and methodological transformation due to the emergence of network neuroscie

121 nt myotubes undergo a dramatic morphological transformation during myogenesis, in which the myotubes

122 th the nanoprecipitation and the martensitic transformation during the fabrication leads to complex m

123 waters could be attributed to photochemical transformations during summer months.

124 lian spermiogenesis is a remarkable cellular transformation, during which round spermatids elongate i

125 he development of catalytic enantioselective transformations, enabling the construction of complex mo

126 the Ullmann-Goldberg coupling, is a valuable transformation for medicinal chemists, providing a modul

127 e Mizoroki-Heck reaction was used as the key transformation for preparing two new spirocyclic monopro

128 The six SDG Transformations framework can be used to examine SDGs wi

129 cancers, and this may manifest clinically as transformation from a prostate adenocarcinoma histology

130 ssibly inflammation may increase the risk of transformation from CH to a myeloid malignancy.

131 olfactory coding involves understanding the transformation from high-dimensional sensory stimulus to

132 Here we test the hypothesis that the transformation from motor commands to force trajectories

133 nvironment specifically inducing topological transformation from nanoparticles to organelle-like hydr

134 at only UBA I was observed throughout, while transformation from UBA III into UBA I still occurred in

135 change in a single-crystal-to-single-crystal transformation generating a series of isoskeletal host-g

136 Notably, this transformation has been applied to the late-stage modifi

137 The broad utility of this transformation has been demonstrated through the direct

138 ability of CysLTR2-L129Q to cause malignant transformation has been hypothesized to result from cons

139 The mechanism of this transformation has been studied in-depth through stoichi

140 Kinetic studies of these transformations have also been performed by UV-visible s

141 ed only after significant disease-associated transformations have taken place.

142 Subsequent transformations highlight the utility of the method in t

143 tability (GI) predisposes cells to malignant transformation, however the molecular mechanisms that al

144 95% CI 1.08 to 7.84) and early haemorrhagic transformation (HR 5.35, 95% CI 2.22 to 12.92).

145 Neoplastic transformation in a Drosophila genetic model of epiderma

146 The main bottlenecks that prevent efficient transformation in a greater number of crops include the

147 Max deletion increases growth and transformation in cells and dramatically accelerates SCL

148 applied to investigate potential in situ CFC transformation in groundwater at a field site, where car

149 y resistance, with a focus on neuroendocrine transformation in lung and prostate tumours.

150 the ability of the reversible thermoelastic transformation in NiTi to accommodate stress and strain

151 elta(37)Cl values of alpha-HCH indicated its transformation in soil and wheat.

152 When assessing DPC transformation in the environment, results can be noncon

153 er study with CSIA enabled insights into DPC transformation in the field that are superior to those o

154 pact, is undergoing a knowledge and practice transformation in the increasingly complex healthcare en

155 Galpha(13) Arg-200 mutants induced oncogenic transformation in vitro as determined by focus formation

156 tially and reversibly undergo multiple phase transformations in different sections of the sample.

157 -carbon bond forming reactions are essential transformations in natural product biosynthesis.

158 -C bond-forming reactions are underdeveloped transformations in the field of biocatalysis.

159 lkene stereochemistry are rare, sought-after transformations in the field of modern organic synthesis

160 During the prebiotic era, radiolytic transformations in the oceans played a key role in purif

161 of highly atom-economical and chemoselective transformations in which alkynes played a major role in

162 ugh a radical, concerted or ionic mechanism; transformations in which all three mechanisms occur are

163 n of internal alkynes is a fundamentally new transformation, in which both H atoms of dihydrogen are

164 ed to facilitate a broad range of asymmetric transformations, including aldol, Mannich, and Henry rea

165 lian pulmonary membranes suffer a structural transformation induced by cardiolipin.

166 gnaling, promoting cell invasion, and growth transformation induced by KSHV.

167 Applying rank-based inverse normal transformation (INT) can make the expression values more

168 hat exhibit floppiness and facile routes for transformation into more rigid structures that are other

169 ating the requirement for an extra synthetic transformation into more stable boron species, such as p

170 We find that the 3D-3D topotactic transformation involves two types of building units wher

171 pe suggest a single linear sequence for this transformation involving a sigma complex and oxidative c

172 ecent progress in developing novel catalytic transformations involving P-C bond formation.

173 This transformation is a C-C bond-forming reaction currently

174 Squamous transformation is a subsequently identified and less wel

175 Strikingly, this phase transformation is absent in the constituent oxides, soli

176 tic organic contaminants whose photochemical transformation is affected by dissolved organic matter (

177 Cellular transformation is associated with dramatic changes in ge

178 Remarkably, this transformation is environmentally friendly and atom econ

179 The transformation is performed in an open-to-air flask as i

180 vity can determine whether this input-output transformation is stimulus-dependent.

181 One aspect of this transformation is the progressing implementation of elec

182 alf-life of DA due to singlet oxygen-induced transformations is between 5 and 63 days.

183 pment of sustainable catalysts for synthetic transformations is one of the most challenging and deman

184 ver, the direct experimental observation and transformation kinetics of GBs in an elemental metal hav

185 ngthening and gamma-f.c.c. -> epsilon-h.c.p. transformation leading to a simultaneous increase in str

186 Individual transformation matrices project information from individ

187 in transformed human cells, suggesting that transformation may impact additional pathways that restr

188 Transformation-mediated gene replacement resulted in two

189 ual susceptibility of NMR and mouse cells to transformation observed by Hadi et al. was resulted from

190 In the external cohort, Richter's transformation occurred in 17% of the high-risk group, a

191 actor for GHPs which demonstrated neoplastic transformation (odds ratio [OR], 3.729; 95% confidence i

192 The selective and precise transformation of 1 into 1-OTf-Pd(NP) was characterized

193 In this work, we document the phase transformation of 25 nm thick nanocrystalline (NC) free-

194 hed for the first time for the photochemical transformation of 4-hydroxy-alpha-benzopyrones to a new

195 To increase the cascade activity for the transformation of 6-ACA to HMD, we determined the crysta

196 tified by map-based cloning and validated by transformation of a c.10-kb genomic sequence including W

197 and mutations responsible for the pathogenic transformation of a patient-derived lambda LC, by recomb

198 In this regard, transformation of a traditionally unreactive C-H bond, p

199 For the transformation of AA to HMD (via 6-ACA), the wild type C

200 eage plasticity in cancer - the histological transformation of adenocarcinomas to aggressive neuroend

201 The nucleation, growth, and transformation of anodized amorphous NTs into crystallin

202 onium ylides by Pd/C-catalyzed carbonylative transformation of azides with alpha-carbonyl sulfoxonium

203 s and is important for efficient EBV-induced transformation of B cells in vitro In this study, we use

204 This is epitomized by the bacterial transformation of bile acids, which creates a complex po

205 ined a chemical reaction relationship as the transformation of chemical A to chemical B.

206 ple of ultrasound-assisted polymer analogues transformation of chitin unaccompanied by noticeable bac

207 ssion of hypergastrinemia-induced neoplastic transformation of enterochromaffin-like (ECL) cells to t

208 onally similar with respect to the enzymatic transformation of environmentally relevant concentration

209 A transformation of fluxional into configurationally stabl

210 Oxidative transformation of hexapyrrolylbenzenes into azacoronenes

211 global healthcare, accelerating the pace of transformation of its great potential into tangible medi

212 (HWE) have frequently been used to study the transformation of labile SOM, however these are still to

213 n of early B cell factor 1 (EBF1) to promote transformation of LMP1-expressing B cells by inhibiting

214 ected Ta(8)O(2)(+) cluster ions catalyze the transformation of methane in a gas-phase ion trap experi

215 ion are key to the layer-to-tunnel structure transformation of Mn oxides, provided new insights for n

216 ion genes are reduced, resulting in homeotic transformation of ovules.

217 eving dihydrogen dissociation and subsequent transformation of oxygenates.

218 igher decomposition rates, while biochemical transformation of plant remains was negatively related t

219 oncogenic PI3K signalling and initiated the transformation of premalignant B cells.

220 ixture with a base initiated deep structural transformation of primary products.

221 Our findings shed light on the transformation of rate-place coding of resolved harmonic

222 the lack of control over defined topological transformation of self-assembled structures.

223 Transformation of SMX was observed in both sulfate-reduc

224 -nutrients) on decomposition and biochemical transformation of standard plant materials buried in 21

225 hed in dosed mouse serum, suggesting in vivo transformation of sulfonamide precursors.

226 acterized by a rapid oblate-to-prolate shape transformation of the electron gas, and periodic and lon

227 reached three crossroads on the path to the transformation of the glycosciences, and illustrates the

228 thelial cells leads to the reprogramming and transformation of these cells to neuron- and photorecept

229 Deterministic transformations of 2D patterns of materials into well-co

230 Transformations of biomass burning brown carbon aerosols

231 competently catalyzed dehydrogenative tandem transformations of indolines with alkenes or aldehydes t

232 ts preserve evidence of strong photochemical transformations of mercury in the absence of molecular o

233 Standardized Fisher transformations of the correlation/beta coefficients, bo

234 in-depth investigation of the photochemical transformations of the photoacid generators and changes

235 both PrP(106-126) and hIAPP induced dramatic transformations of the vesicles, specifically disruption

236 d low-pass filtering, but the effects of the transformation on analyses of neural populations are not

237 on and dysfunction and the risk of malignant transformation over time.

238 n in the mean rate of GA growth (square root transformation) over 12 months was 27.4% (P = 0.0072) fo

239 n studied for decades, the commonly accepted transformation pathway-sequential hydroxylation of the r

240 ades, limiting the types of C-C bond-forming transformations possible through biocatalytic methods.

241 The thermally triggered multistep transformations preprogrammed in our precursors' design

242 Furthermore, DOM transformation primarily due to direct photolysis alters

243 nd show that mutations in H1 drive malignant transformation primarily through three-dimensional genom

244 nderstanding of bacteria-driven mercury (Hg) transformation processes in natural environments, thermo

245 Additionally, DPC formation and transformation processes were experimentally deconvolved

246 Perfluorohexane sulfonamide, a potential transformation product of sulfonamide-based PFASs, was p

247 epending on their reduction, the presence of transformation products derived from cooking or digestio

248 The transformation products in sulfate-reducing cultures wer

249 As they degrade, intermediate transformation products may play an important role in th

250 Transformation products ought to be an important conside

251 oncentrations of 47 such compounds and their transformation products were measured in 20 atmospheric

252 on occurred via beta-oxidation to oxygenated transformation products with lower molecular weight, suc

253 Even when considering transformation products, the considered alternatives rem

254 tection of unknown fluorinated compounds and transformation products.

255 ds was further developed to include chemical transformation products.

256 ociated bacterial communities, and microbial transformation products.

257 roteins and their diverse roles in oncogenic transformation, proliferation, and metastasis.

258 Eda is a response to climate-driven habitat transformation rather than a direct consequence of clima

259 and evaluated in fundamental organometallic transformations relevant to aldehyde formation.

260 However, the environmental impacts of these transformations remain unclear.

261 Key chemical transformations require metal and redox sites in proximi

262 Delta16HER2 transgenic mouse model, oncogene transformation resulted in a timely abrogation of miR-22

263 Based on these maps, we test potential transformation routes between perovskite nanocrystals of

264 Notably, this transformation selectively delivers the desired 1,1-hete

265 l data, our method does not rely on any data transformation, sparsity assumption or regularity condit

266 estions and practical issues regarding phase transformation, structural evolution, electrochemical re

267 ghly efficient Agrobacterium-mediated stable transformation system using axillary shoots as the initi

268 been undertaken due to the lack of a stable transformation system.

269 ractive for the development of new catalytic transformations, tandem processes in particular.

270 ilayers represents a distinct class of phase transformation that occurs in structurally organized, mo

271 Numerous redox transformations that are essential to life are catalyzed

272 networks were unable to produce input-output transformations that matched experimental data and were

273 nal modulation of underlying cortex, but the transformations that this circuit implements are not kno

274 sistence will be influenced by photochemical transformations, the nature of which is poorly understoo

275 However, like any organic transformation, there is no perfect bioorthogonal reacti

276 berrant cell division and potential cellular transformation through autophagic death induction.

277 dephosphorylation of MAP4K4 and induces cell transformation through the activation of the Hippo pathw

278 trol of both structural and electronic phase transformations through the electric-field controlled pr

279 This process led to a phase transformation to an anhydrous calcium sulfate, anhydrit

280 ADDO implements a mixed-model transformation to control for population structure and u

281 a new type of transition-metal-free mediated transformation to enable the construction of C(sp(3))-ri

282 de variety of molecules that induce cellular transformation to various extents.

283 Further transformations to demonstrate the utility of these scaf

284 erein introduce the use of selected chemical transformations to elucidate the chemical nature of a ra

285 and can undergo a variety of chemoselective transformations to produce enantioenriched homoallylic a

286 file and learn gene-specific bulk expression transformations to robustly decompose RNA-seq data.

287 We used biolistic combinatorial co-transformation (up to 20 transgenes) for increasing C an

288 ut also including a diverse range of organic transformations via either S(N)2 or radical pathways.

289 No ferrihydrite transformation was observed at high C/Fe ratios using Mo

290 The mechanism of this transformation was probed, yielding insight that enabled

291 y(1) and the concept of GBs undergoing phase transformations was proposed 50 years ago(2,3).

292 examine the neural dynamics underlying this transformation, we presented male and female human liste

293 iple factors governing the efficiency of the transformation were determined, resulting in a reliable

294 mO(2)) often suffer from structural/chemical transformations when contacted with moist air.

295 o evolve enzymatic activity for a variety of transformations where higher throughput is needed.

296 on of SEMA4C promotes properties of cellular transformation, while RNAi knockdown of SEMA4C promotes

297 16 patients who had GHPs showing neoplastic transformation with 39 patients who had non-neoplastic G

298 .2)Sr(0.8)MnO(3), we find a reversible phase transformation with a 7% lattice change and dramatic mod

299 Stochastic phase transformations within individual crystalline particles

300 helial cells derived from the ectocervix and transformation zone of healthy cervical tissue.