ライフサイエンスコーパス: molecular species

1 plexes of Na(+) and Cl(-) ever observed with molecular species.

2 e) and biochemical interactions among mobile molecular species.

3 strong and long-ranged correlations between molecular species.

4 ly into C. trachomatis-produced phospholipid molecular species.

5 ransferases in producing the new disaturated molecular species.

6 tool for in situ localization of hundreds of molecular species.

7 ted into C. trachomatis-derived phospholipid molecular species.

8 drial phospholipids with some alterations in molecular species.

9 oments reported to date for any monometallic molecular species.

10 not contained within the bulk of beta-GlcCer molecular species.

11 tailed compositional analysis of all present molecular species.

12 evision of the interactions between relevant molecular species.

13 ea and readily adsorbs (sometimes undesired) molecular species.

14 110) for [M](+), [M + H](+), and [M - 18](+) molecular species.

15 distinct subcellular localization of the two molecular species.

16 uration has proved difficult to achieve in a molecular species.

17 ractions among DNA, RNA, proteins, and other molecular species.

18 t analytical approach quantifying individual molecular species.

19 with "inert" silica cores and for 3-D hybrid molecular species.

20 of the relative concentrations of different molecular species.

21 ogether, to build a restricted number of TAG molecular species.

22 ling the ionization efficiency of atomic and molecular species.

23 ssociation or formation of specific reactive molecular species.

24 molecular measurements correctly with actual molecular species.

25 HCs, several tightly but noncovalently bound molecular species.

26 tudy of cell adhesion on an unlimited number molecular species.

27 al antibodies are incorporated into a single molecular species.

28 ng plastidic and extraplastidic glycerolipid molecular species.

29 ly dissociated into choline and geranic acid molecular species.

30 ction of a dauntingly vast diversity of oxPL molecular species.

31 iltering and selective transport of chemical/molecular species.

32 context of directing the formation of (supra)molecular species.

33 complexes consist of at least four distinct molecular species.

34 The PA-SPHK interaction depends on the PA molecular species.

35 uantitative measurement of hundreds of lipid molecular species.

36 n of the aliphatic fatty acid residues of CE molecular species.

37 ngle ion surrounded by a set of ion-ligating molecular species.

38 eristics are similar to those of a triatomic molecular species.

39 sing, which typically are unable to identify molecular species.

40 database covering over 17000 potential PS-80 molecular species.

41 first quantitative data on Am-C bonding in a molecular species.

42 or making confident identifications of lipid molecular species.

43 o achieve an accurate quantification of rare molecular species.

44 mical behavior of extended structures versus molecular species.

45 mass spectra exhibit the formation of intact molecular species.

46 label-free and unambiguous identification of molecular species.

47 Light also induces decreases in specific TAG molecular species.

48 gic tissues demonstrated diverse profiles of molecular species.

49 s improved detection and imaging of selected molecular species.

50 t well-controlled synthetic accessibility of molecular species.

51 ingful" behaviors that differ in the set of (molecular) species.

52 acterized by a shift to shorter chain length molecular species; 2) alterations in both choline and et

53 th an altered composition of triacylglycerol molecular species; (2) homozygous mutant seeds of phe1,

54 taneous mapping of subcellular elemental and molecular species along with intrinsic membrane-specific

55 antification and localization of SQDG and PG molecular species, among mesophyll (M) and bundle sheath

56 electrostatic forces to form highly charged molecular species, analogous to known neutral or singly

57 Molecular species analysis and mass measurements suggest

58 ed atrophin-1 with different mobility of the molecular species and ability to exchange with the surro

59 vide detailed information on the identity of molecular species and changes in the local environment,

60 scopy methods to distinguish among different molecular species and changes that occur as a result of

61 [cAACPLi(THF)2]2 (1) has been isolated as a molecular species and characterized by single crystal X-

62 c and stochastic models containing only four molecular species and four states for each kinetochore,

63 Both the impact of hypoxia on DHC molecular species and its inhibitory effect on cell prol

64 neous metabolic incorporations for different molecular species and neurogenesis with newly-incorporat

65 re analyzed along with their initial labeled molecular species and positional distributions.

66 chemical reactions and generates hundreds of molecular species and radicals during the process.

67 Analyzing the TAG molecular species and regiochemistry, along with analysi

68 Analysis of HFA-triacylglycerol molecular species and regiochemistry, along with analysi

69 The choice of the molecular species and the control of their arrangement i

70 om co-localization incidents between crowded molecular species and the intrinsic heterogeneity of mol

71 We investigated the profiles of LPA molecular species and the level of ATX exoenzyme in bron

72 on between the MALDI IMS ion abundance of PC molecular species and the relative abundance of correspo

73 ain customizable concentrations of cells and molecular species, and can be placed into any spatial co

74 n be used as a pressurized cell with trapped molecular species, and provide guidance for practical ap

75 uid "multiverse" is populated with atomic or molecular species, and these species are excited using a

76 increased oxidized phosphatidylethanolamine molecular species; and 4) an increased content of cerami

77 ore than 20 mol% of total FAs, whereas these molecular species are 10-fold less abundant in the embry

78 istributions of over 80 putatively annotated molecular species are determined with 40 mum spatial res

79 Tens of thousands of distinct molecular species are identified, providing clues to the

80 lesteryl ester (CE) and diacylglycerol (DAG) molecular species are important lipid storage and signal

81 e change in the molecular weight, where many molecular species are involved in the formation of the s

82 tringency sensation, in which at least three molecular species are involved, different NMR techniques

83 Inelastic collisions involving molecular species are key to energy transfer in gaseous

84 PC molecular species are present inside the yolk in additio

85 d to the hypothesis that individual ceramide molecular species are regulated by specific biochemical

86 The spatial distributions of elemental and molecular species are vital pieces of information for a

87 Unlike standard simulators that represent molecular species as variables in equations, NFsim uses

88 GKepsilon by PA depends on the particular PA molecular species as well as the physical properties of

89 bundant endogenous phosphatidylinositol (PI) molecular species, as an anti-DENV lipid molecule.

90 rmation on the (effective) size and shape of molecular species, as well as to probe inter-molecular i

91 re the adsorption and desorption kinetics of molecular species associated with a surface.

92 ation (muIF) for isolation and enrichment of molecular species at any desired location in a microflui

93 d semitargeted detection of multiply charged molecular species at enhanced signal-to-noise ratios (S/

94 rode-driven redox events of surface-confined molecular species at low submonolayer coverages and at a

95 Probing the nature of the molecular species at the atomic level has led to the ide

96 The opposite changes in molecular species between PC and PE and unchanged PC lev

97 Analyses of lipid molecular species by dynamic quantitative mass spectrome

98 within each class were detected and the main molecular species (C36:4, C36:3, C36:2, 34:2 and C34:1)

99 systems biology where only a small number of molecular species can be assayed at any given time and a

100 echanisms of regulation may act on different molecular species causing any observed lack of correlati

101 The reaction alters the molecular species composition and, as a result, the phys

102 pocampal cardiolipin content with an altered molecular species composition characterized by a shift t

103 These new phospholipids had a distinct molecular species composition consisting of saturated an

104 ion of mitochondrial cardiolipin content and molecular species composition is a prominent regulator o

105 t phospholipids and no change in the size or molecular species composition of the phosphatidylcholine

106 However, changes in galactolipid molecular species composition point to an adaptation of

107 eased content of cardiolipin with an altered molecular species composition thereby identifying the me

108 al hemodynamic function, glycerophospholipid molecular species composition, and normal rates of mitoc

109 The major molecular species consisted of more than 3 isomers that

110 t-in database of over 36,000 potential lipid molecular species constructed employing known building b

111 atom" radicals, neutral open-shell (S = 1/2) molecular species containing heavy p-block elements (S,

112 at selectively converted phosphatidylcholine molecular species containing stearate paired with a poly

113 aliana increased leaf TAG content, with some molecular species containing very-long-chain fatty acids

114 rol (PG) in fab1 that are high-melting-point molecular species (containing only 16:0, 18:0, and 16:1,

115 A subset of molecular species, containing n-3 polyunsaturated specie

116 mbers, while variability in the numbers of a molecular species controlling transcription of an active

117 ent of spatial and temporal distributions of molecular species created within the study system itself

118 membrane glycerolipids occur in a mixture of molecular species defined by a polar head group and char

119 that a range of diversified polyunsaturated molecular species derived from a mitochondria-specific p

120 Here we describe a system for identifying molecular species derived from nuclear magnetic resonanc

121 RM) allows simultaneous quantitation of five molecular species derived from trastuzumab after tryptic

122 st, the lateral resolution for MS imaging of molecular species desorbed by approximately 75 fs, 800 n

123 n the development of the field of ADI-MS for molecular species determinations.

124 The spatial patterning of lipid molecular species did not vary significantly during seed

125 y imaging permits regional analysis of small molecular species directly from tissue surfaces.

126 erent chemical behavior compared to the same molecular species dissolved in homogeneous solution.

127 idome analysis revealed distinct patterns of molecular species distribution in individual lipid class

128 of 478 quantified lipid compounds, including molecular species distribution of 25 different lipid cla

129 resolution and did not affect the amount or molecular species distribution of brain tissue CLs.

130 Triacylglycerol and phosphatidylcholine molecular species distribution was analyzed through a de

131 test the hypothesis that the intensity of PC molecular species does relate to the quantity of molecul

132 es in the temporal maturation of cardiolipin molecular species during development.

133 2 complex 2 is a rare example of a discrete, molecular species employing a neutral bridging biradical

134 ylations of DAG were observed, providing TAG molecular species enriched in saturated or polyunsaturat

135 ave confirmed the successive grafting of the molecular species, evidencing, that homogeneous monolaye

136 Currently the phospholipid molecular species externalized are unknown.

137 ans, or both are used to identify individual molecular species, followed by quantitation.

138 bit no measurable O2-evolution activity, the molecular species formed after their oxidative activatio

139 experimental X-ray absorption spectra of the molecular species formed along the catalytic cycle are m

140 In mouse whole blood, ~44 eoxPL molecular species formed within minutes of clot initiati

141 By quantifying 281 molecular species from 27 major lipid classes in the pla

142 or the simultaneous mapping of elemental and molecular species from a variety of samples.

143 o introduce compounds into cells, to release molecular species from cells or to selectively induce pr

144 Ionization of molecular species from one-dimensional (1D) tellurium na

145 tructural lipids decreased, whereas monoacyl molecular species, galactolipids and phosphatidylglycero

146 c regions, yet radon affinity for a discrete molecular species has never been determined.

147 Quantitative analysis of monoglyceride molecular species has remained challenging due to rapid

148 This molecular species has the same electronic ground state a

149 quantifying the dynamic bio-distribution of molecular species, has the potential to provide useful m

150 fferent autocatalytic and 'self-replicative' molecular species have been extensively investigated, to

151 ospholipid, contains >40% high-melting-point molecular species (HMP-PG; molecules that contain only 1

152 ction f : N (k) --> N (l) by a count of some molecular species, i.e., if the CRN starts with x1, ...,

153 The levels of 93 TAG molecular species, identified by their acyl components,

154 Our findings bring together the main molecular species implicated in the Abeta aggregation ca

155 thermore, because the LS-APGD source ionizes molecular species in a ~1 mm(3) volume plasma using a lo

156 A key molecular species in Alzheimer's disease (AD) is the Abe

157 mensional overviews of hundreds of unlabeled molecular species in complex samples such as intact tiss

158 itrogen, oxygen and sulphur, the identity of molecular species in gaseous volcanic emanations depends

159 Recently, the detection of molecular species in laser-induced breakdown spectroscop

160 pedes simultaneous visualization of multiple molecular species in living cells.

161 d the relative abundance of corresponding PC molecular species in microdissected regions analyzed by

162 We propose that SLN exists as multiple molecular species in muscle, including SERCA-free (monom

163 The proportion of high-melting-point molecular species in PG is reduced from 48.2% in fab1 to

164 w sufficient for the detection of individual molecular species in real time.

165 acquisition of spatial distribution maps for molecular species in situ.

166 itive label-free technique to detect various molecular species in solutions and has already proved cr

167 etic force field experienced by paramagnetic molecular species in solutions, which changes between re

168 Here the composition of the GPEtn molecular species in the bloodstream form of Trypanosoma

169 Candidates for the toxic molecular species in the expanded polyglutamine (polyQ)

170 Ralpha, adding to the repertoire of RXRalpha molecular species in the hepatocyte that respond to infl

171 The automated analyses of individual lipid molecular species in the program employ a strategy in wh

172 Indeed, in each case, identical molecular species in the same protein are seen to exhibi

173 materials that the arrangement of different molecular species in three dimensions can affect the abi

174 y the glycerophospholipid classes as well as molecular species in two halophyte seed oils from Cakile

175 cs at specific sites within a broad range of molecular species in water.

176 tively define lipid classes, including their molecular species, in biological systems.

177 nd relatively quantified more than 106 lipid molecular species including fatty acids, n-alkanes, fatt

178 rocesses leading to the creation of specific molecular species including various intermediate radical

179 We classify ten different molecular species, including the unbound, closed spike t

180 isualize directly a large number of distinct molecular species inside cells is increasingly essential

181 nt lateral mobility of monomeric and dimeric molecular species into account.

182 el to study binding and insertion of various molecular species into the membrane.

183 mation, such as the shapes and sizes of each molecular species, into the rate equations of the model.

184 The time evolution of molecular species involved in biochemical reaction netwo

185 With the increasing number of molecular species involved in gene regulatory networks,

186 The molecular species involved in light dose-driven "off-on-

187 to experimental data provide insight on the molecular species involved in the fibril formation proce

188 While this change from monatomic ions to molecular species is accompanied with increased complexi

189 regiospecificity of individual monoglyceride molecular species is also diverse from tissue to tissue.

190 ting the spectroscopy between the atomic and molecular species is observed, wherein the electronic st

191 nover rate differs between lipid classes and molecular species is poorly understood.

192 interactions and cotransport of two distinct molecular species labeled with different fluorophores.

193 missing this particular phosphatidylglycerol molecular species lacks the necessary fatty acid desatur

194 In order to maximize the coverage of molecular species, LDI, as a particularly convenient and

195 study binding interactions between different molecular species loaded into the same well.

196 his mixture has potentially over two million molecular species, mathematical modeling and the small s

197 However, it is not known what molecular species may be responsible.

198 ibility, and ability to identify novel lipid molecular species may now render current state-of-the-ar

199 n of all transcripts, and perhaps also other molecular species, may bear the potential for circadian

200 orted herein indicates that this is a unique molecular species mimicking oxygenic RuO2 surfaces.

201 lipids and phospholipids (including monoacyl molecular species, molecular species with oxidized acyl

202 lipid, contains up to 45% high-melting-point molecular species (molecules that contain only 16:0, 16:

203 ormation in high-salt conditions explain the molecular species observed.

204 ns show that a transformation of the applied molecular species occurs at higher applied bias, pointin

205 he conversion of the precursor to the active molecular species occurs by a similar process whether ca

206 contains a highly diversified complement of molecular species of a mitochondria-specific phospholipi

207 Mutations in tafazzin cause abnormal molecular species of cardiolipin and the clinical phenot

208 accumulation of more than 150 new oxygenated molecular species of cardiolipin.

209 primary rat or human AM, irrespective of the molecular species of ceramide.

210 Several molecular species of di-acyl phosphatidylinositol and ph

211 Thus, the molecular species of externalized APL during platelet ac

212 Molecular species of glycerophospholipids are typically

213 discovery of the quantum particle among the molecular species of HDL (prebeta-1 HDL) and its role in

214 alyses, although able to resolve hundreds of molecular species of lipids in single extracts, lose the

215 ological activities attributable to specific molecular species of oxPLs in the complex mixtures gener

216 Collectively, our results point to specific molecular species of PA as key modulators of AD pathogen

217 owed quantification of triacylglycerol (TAG) molecular species of Parinari curatellifolia and other s

218 The membrane lipids included molecular species of phosphatidylcholine, phosphatidylet

219 ions in the proportion of high-melting-point molecular species of phosphatidylglycerol relative to fa

220 A molecular species of phosphatidylglycerol specific to ch

221 In addition, we identified several molecular species of phosphonosphingolipids called ceram

222 l characterization of oxygenated, hydrolyzed molecular species of PS-containing linoleic acid in eith

223 time-dependent correlation functions between molecular species of regulatory networks and present ana

224 1 produced in HEK 293 cells harbored several molecular species of sphingomyelin and phosphatidylcholi

225 ts of mutations in MutS are dependent on the molecular species of the mismatch.

226 The major molecular species of triacylglycerol detected in the thr

227 ed a distinct, heterogeneous distribution of molecular species of triacylglycerols and phosphatidylch

228 processes between quantum dots and attached molecular species offer versatile strategies to modulate

229 icable to quantification of a range of small molecular species on a variety of complex organic and bi

230 ng macromolecule, and the influence of small molecular species on, e.g., melting temperature, as well

231 face interactions such as the binding of two molecular species, one present in the liquid phase and t

232 effective for the analysis of elemental and molecular species operating in an ambient desorption/ion

233 However, no other PI molecular species or PI metabolites, including lysophosp

234 y oxidized graphene core and highly oxidized molecular species, oxidative debris (OD), adsorbed on it

235 ls and their active sites is of interest, as molecular species possess a great degree of tunable elec

236 tely resolving mixtures of multiple distinct molecular species present in the same sample of dopamine

237 embrane systems from the unique phospholipid molecular species produced by its own fatty acid and pho

238 imparting a distinctly altered phospholipid molecular species profile.

239 For molecular species progressing toward the fibrillar state

240 es for which Ln(2+) had not been observed in molecular species provided crystalline Pr(2+), Gd(2+), a

241 istep assays, with colorimetric detection of molecular species ranging from small molecules to protei

242 and FA and PL metabolism and their resulting molecular species reflect the cellular proliferative abi

243 These molecular species regulate tumor growth during angiogene

244 d found to be so far unique in regard to the molecular species released.

245 the mobilization of storage lipids and their molecular species remodeling were correlated with the ex

246 icular, have been implicated as the dominant molecular species responsible for pathogenesis.

247 ressors, the correlated fluctuations between molecular species show distinct characteristics for chan

248 ctants produced by bacteria can be indicator molecular species signifying initiation of biofilms on m

249 provides the opportunity to monitor multiple molecular species simultaneously and provides a practica

250 formation on the distribution of hundreds of molecular species simultaneously on a cellular to subcel

251 ative bottom-up shotgun lipidomics relies on molecular species-specific "signature" fragments consist

252 presence of thrombin, as well as interfering molecular species such as the thrombin precursor prothro

253 Complex mixtures of molecular species, such as glycoproteins and glycosamino

254 analyses showed that 8% of the phospholipid molecular species synthesized by C. trachomatis containe

255 yclic ligand gives intrinsically more stable molecular species than previously reported SMMs, thus ma

256 random coil to mature fibrils, including the molecular species that accelerate the conversions.

257 tural differences, giving rise to individual molecular species that are expressed in distinct cellula

258 emiluminescence imaging involves short-lived molecular species that are not stored but are instead ge

259 bolic profiling is for the identification of molecular species that are statistically associated with

260 be a variety of kinetically stable polyionic molecular species that are trapped in appreciable potent

261 However, the number of molecular species that can be measured simultaneously is

262 analytical approach to assessing CE and DAG molecular species that exploits the utility of lithiated

263 Statistical tests were used to identify molecular species that indicated differences in lipid me

264 dies indicate that the catalyst is a soluble molecular species, that the dominant species in the cata

265 pecific selected reaction monitoring for DAG molecular species, the response of specific molecular sp

266 9 T), distinguish and quantify the different molecular species, their chemical transformations, and t

267 ous collection/preconcentration of explosive molecular species through direct air sampling, followed

268 ridization (seqFISH) allows large numbers of molecular species to be accurately detected in single ce

269 l properties of lipid classes and individual molecular species to facilitate the high-throughput anal

270 molecular species, the response of specific molecular species to that of internal standards was dete

271 compounds, can be applied to the bonding of molecular species to the nanocrystal surface.

272 se must possess larger porosity for ionic or molecular species to travel into or out of MOFs without

273 The compositions of triglyceride (TAG) molecular species, total fatty acids, and sn-1+3 and sn-

274 detected to molecules sputtered) for several molecular species-two peptides, bradykinin and angiotens

275 applied to several other neutral and charged molecular species useful for quantum information process

276 The number of separations and analyses of molecular species using traveling wave ion-mobility spec

277 yield graphs of concentrations of different molecular species versus time that are in close agreemen

278 representative selection of cell-derived PC molecular species was carried out using LC/MS/MS to meas

279 A broad range of molecular species was detected, and species of interest

280 A dramatic, heterogenous landscape of molecular species was revealed, demonstrating significan

281 These molecular species were abundant in the most bioactive yo

282 In all, 116 Laccaria molecular species were identified, resulting in a near 5

283 lin (SM), phosphatidylcholine (PC) and their molecular species were observed following yoghurt fermen

284 Three-terminal interlocked molecular species were obtained by dynamic (2+3) assembl

285 CE and DAG molecular species were quantified in human coronary arte

286 18:1/18:2), SM(d18:0/22:0) and several other molecular species were significantly inversely correlate

287 nanotechnology is to put specific atomic and molecular species where we want them, when we want them

288 caffolds to control the positioning of other molecular species, which opens opportunities to study in

289 ising from the transformation of the initial molecular species, which should rather be considered as

290 tion of monolysocardiolipins and cardiolipin molecular species with aberrant acyl groups.

291 mplexes (NiL0, NiL2-NiL4) that form discrete molecular species with alkali metal ions (M(+) = Li(+),

292 evealed that mAb F77 recognizes a very small molecular species with glycolipid properties.

293 ifferentiation of a large number of distinct molecular species with high temporal and spatial resolut

294 Our method exploits the molecular species with one of the acceptors absent or ph

295 ipids (including monoacyl molecular species, molecular species with oxidized acyl chains, phosphatidi

296 new insights into the distribution of lipid molecular species with promising application to study pa

297 Several molecular species within each class were detected and th

298 r polar head groups allowed the detection of molecular species within particular glycerophospholipid

299 to a marked increase in symmetric tetra-18:2 molecular species without a change in total cardiolipin

300 ions report on the dynamics and structure of molecular species, yet revealing these correlations expe