ライフサイエンスコーパス: intermolecular

1 p, converting an intramolecular disulfide to intermolecular.

2 An intermolecular 1,2-carboamination of unactivated alkenes

3 lar [2 + 2 + 2] cycloaddition reactions, and intermolecular [2 + 2 + 1 + 1] cycloaddition reactions.

4 ransannular [4 + 2] cycloaddition reactions, intermolecular [2 + 2 + 2] cycloaddition reactions, and

5 mol %) the title compounds underwent a clean intermolecular [2 + 2] photocycloaddition with electron-

6 ne into a geometry in the solid state for an intermolecular [2 + 2] photodimerization.

7 strategy is based on a three-fold, partially intermolecular [2+2+n] (n = 1 or 2) cycloaddition with s

8 t a general and simple method to realize the intermolecular [2+2] dimerization reaction of these acyc

9 nsient amine radical cations involved in the intermolecular [3 + 2] annulation reaction of N-cyclopro

10 The key step utilizes a novel intermolecular [4+2] cycloaddition-cyclization cascade b

11 ho-quinoid ketene methides", which engage in intermolecular [4+2] cycloadditions with isatins 2a-2f t

12 a method for the catalytic, enantioselective intermolecular addition of aliphatic amines to acyclic 1

13 itions through the regio- and stereospecific intermolecular addition of carboxylic acids to iodoalkyn

14 unts was correlated with the dissociation of intermolecular aggregates.

15 ysozyme was correlated with the formation of intermolecular aggregates.

16 lticatalytic process enables both intra- and intermolecular aldehyde alpha-methylene coupling with ol

17 An unprecedented intermolecular aliphatic C-F...H-C interaction was obser

18 o be exceptional substrates for Rh-catalyzed intermolecular alkene and alkyne hydroacylation reaction

19 The intermolecular alkylation of pyridine units with simple

20 cooperativity into cooperative aggregation, intermolecular (allosteric) cooperativity, intramolecula

21 A method for catalytic intermolecular allylic C-H amination of trans-disubstitu

22 onooxygenase-for the highly enantioselective intermolecular amination of benzylic C-H bonds.

23 The intermolecular amination of C-H bonds represents a parti

24 Herein, the development of intermolecular aminocarbonylation reactivity of iminoiso

25 A silver-catalyzed intermolecular aminosulfonylation of terminal alkynes wi

26 grase of MLV, which involves formation of an intermolecular amphipathic two- or three- strand antipar

27 he review is divided into two main sections: intermolecular and intramolecular NHTK reactions.

28 While intermolecular and intramolecular variants are widely kn

29 the network of interacting residues between intermolecular and intramolecular.

30 llenging to predict computationally, such as intermolecular and long-range intramolecular duplexes.

31 l transannular Pauson-Khand reactions, other intermolecular and transannular cycloaddition reactions

32 ed (intramolecular with a directing group or intermolecular), and the context (stoichiometric C-H act

33 ives has been developed via Cu(II)-catalyzed intermolecular annulation of aryl ketones with a wide ra

34 being mainly attributed to the formation of intermolecular anthocyanin:co-pigment complexes.

35 However, within the layers, intermolecular arrangements and pi-pi interactions of th

36 thiophenes, or imidazo[1,2-a]pyridines, the intermolecular arylation of such external heteroarenes p

37 ergoing significant conformational change or intermolecular association to generate the structures th

38 The preponderance of hydrogen bonds in intermolecular associations amongst monosaccharides in h

39 Direct visualization is obtained for the intermolecular attraction and the "windmill" pattern of

40 ed C terminus of rhodopsin forms an extended intermolecular beta sheet with the N-terminal beta stran

41 nd activation occurs via the formation of an intermolecular beta-sheet between the membrane-proximal

42 controllable geometry and variable levels of intermolecular beta-sheet content in their protein shell

43 ociated in an antiparallel manner to form an intermolecular beta-sheet, affect G fusion properties.

44 tion of antiparallel beta-sheet, beta-turns, intermolecular beta-sheet, and aggregation of proteins.

45 e (itProbe) to acquire real-space imaging of intermolecular-bonding structures in the two-dimensional

46 is process, the proteins polymerize, forming intermolecular bonds among the same classes of proteins.

47 logens require different descriptions of the intermolecular bonds they form.

48 We describe a strategy for intermolecular branched-selective alpha-alkylation of ke

49 ation and structure dependence of intra- and intermolecular C horizontal lineO...H-N and C horizontal

50 an aromatic species by forming weak and long intermolecular C-C single bonds.

51 of C-H activation; stoichiometric intra- and intermolecular C-H activation; reactions of dioxygen wit

52 ido product ((Ar)L)Fe(NHAd), and can mediate intermolecular C-H amination of toluene [PhCH3/PhCD3 kH/

53 This intermolecular C-H bond functionalization does not requi

54 -tert-butylphenyl)methane at 20 K reveals an intermolecular C-H...H-C distance of only 1.566(5) A, wh

55 ucleophilic amino cyclization followed by an intermolecular C-N bond formation using electrophilic az

56 and the imidazopyrrolopyrazines form via an intermolecular carbene N-H insertion.

57 Copper-catalyzed intermolecular carboamination of alkenes with alpha-halo

58 ruded hairpin and a distal beta-sheet, in an intermolecular chain reaction similar to domain swapping

59 n (kp) but also prevent undesired intra- and intermolecular chain-transfer processes, giving access t

60 ar packing geometries, resulting in variable intermolecular charge transfer (CT) interactions in the

61 we exploit the large hyperpolarizability of intermolecular charge transfer states, naturally aligned

62 ulations suggest that visible-light-promoted intermolecular charge transfer within the thiolate-aryl

63 enomena such as resonant energy transfer and intermolecular charge transfer.

64 uctural relaxation occurs upon population of intermolecular charge-transfer (CT) states formed at org

65 cancer types, discovering >6,000 intra- and intermolecular clusters, some of which showed tumor and/

66 Intermolecular co-pigmentation was investigated for the

67 ore, quantitative and qualitative effects of intermolecular co-pigmentation were studied by adding ch

68 eptides rival those of the strong reversible intermolecular cohesion exhibited by adhesion proteins o

69 formation of hydroxylysine-aldehyde derived intermolecular collagen cross-links (HLCCs).

70 Intermolecular contacts are often determined by experime

71 g increased aggregation through LPS-mediated intermolecular contacts between clusters of TCP molecule

72 ned molecular model-constructed to match the intermolecular contacts between HbS molecules.

73 r binding energies can be quite high and the intermolecular contacts rather small compared to the res

74 The dimers are stabilized by intermolecular contacts that occur along the entire leng

75 erization of kalata B1 through electrostatic intermolecular contacts via their complementary charges.

76 ray ionization mass spectrometry, and mapped intermolecular contacts with hydrogen-deuterium exchange

77 form kissing hairpin and/or extended duplex intermolecular contacts.

78 which are not defined by strong, directional intermolecular coordination bonds.

79 imized extract exposed to light displayed an intermolecular copigmentation.

80 transfer, tighter pi-pi stacking, and strong intermolecular coupling are responsible for the conducti

81 This strategy is further amenable to intermolecular coupling between cinnamyl bromochlorides

82 case of anti-Markovnikov selectivity in the intermolecular coupling of amines and 1,3-dienes.

83 These radicals undergo efficient intermolecular coupling with simple alkenes in a defluor

84 long-range exciton transport through strong intermolecular coupling.

85 ene cyclization led to the development of an intermolecular cross-coupling of electronically-differen

86 We also observed intermolecular cross-linked peptides, which indicated At

87 e-based ligands that allow highly selective, intermolecular Cu-catalyzed cross-coupling of phenolic n

88 icyclo[2.2.2]diazaoctane structures using an intermolecular Diels-Alder cycloaddition between a pyraz

89 roperties of pMHC-NPs are a function of pMHC intermolecular distance and involve the sustained assemb

90 rified RC/YFP complexes show that the YFP-RC intermolecular distance and spectral overlap between the

91 ces of 2.8750(8) A each-the shortest such an intermolecular distance ever reported between any two d(

92 Intermolecular distances on four singly spin-labeled mVD

93 beled protein with experimentally determined intermolecular distances, a comprehensive set of protein

94 erization likely through the formation of an intermolecular disulfide bond.

95 mechanism, namely, formation of a reversible intermolecular disulfide bond.

96 stoichiometric, and results in formation of intermolecular disulfide bonds between conserved cystein

97 in fold and a homodimeric structure with two intermolecular disulfide bonds in its oxidized state.

98 tion transformed cells via cysteine-mediated intermolecular disulfide bonds, leading to receptor dime

99 eads to the formation of nonnative intra- or intermolecular disulfide bonds.

100 alpha possesses three intramolecular and one intermolecular disulfide bridges.

101 Rgg2Sd and found that in the absence of the intermolecular disulfide, the Rgg2Sd dimer interface is

102 mbrane transcription factor TcpP by inducing intermolecular disulphide bonds in the TcpP periplasmic

103 The intermolecular DNA tethering activity of RecN protein de

104 The strategy of extracting lapatinib intermolecular drug interactions from the total PDF x-ra

105 is observed specifically in the presence of intermolecular/dynamic excimer (high concentration range

106 der Waals interactions, to demonstrate that intermolecular electron correlation in large supramolecu

107 fer, and an "open" conformation suitable for intermolecular electron transfer.

108 Discussed reactions include intra- and intermolecular electron- and proton-transfer processes,

109 strained packing motif of the NWs for strong intermolecular electronic coupling, and thus a NW-based

110 Our results further suggest that intermolecular electrostatic interactions, and in partic

111 d formation among monomers, compensating for intermolecular electrostatic repulsion, as a mechanism t

112 onent distributions - an effect arising from intermolecular epistasis between the transcription facto

113 Counter-intuitively, intermolecular epistasis can alleviate the constraints o

114 Thus, a complementary approach to both "intermolecular" excitation and charge delocalizations in

115 s capable of functionalizing C-H bonds in an intermolecular fashion with unrivaled catalytic stabilit

116 amplification are revealed by studies of the intermolecular flavin-tryptophan and flavin-ascorbic aci

117 cular crystals determines its sensitivity to intermolecular fluctuations.

118 It is well understood that intermolecular forces are directly linked to physicochem

119 , hydration, and elastic interactions to the intermolecular forces associated with bundling of straig

120 Designing the intermolecular forces in the way that cholesterol intera

121 f SJW1660 flagellar filaments as well as the intermolecular forces that govern their assembly into de

122 pically governed by a subtle balance of weak intermolecular forces that makes structure prediction ch

123 Hydrogen bonding plays an essential role on intermolecular forces, and consequently on the thermodyn

124 lth of information concerning the structure, intermolecular forces, and dynamics of ionic liquids.

125 r crystals is defined by a balance of weaker intermolecular forces, and small changes to the molecula

126 ning the balance of attractive and repulsive intermolecular forces.

127 nsition was achieved by subtly adjusting the intermolecular forces.

128 Our intermolecular FRET measurements in living cells are con

129 The enantioselective intermolecular gold(I)-catalyzed [2+2] cycloaddition of

130 The intermolecular gold(I)-catalyzed reaction between arylal

131 (D) and acceptor (A) sites can interact via intermolecular H-bonds to form duplexes or fold via intr

132 at mediates heterodimerization by forming an intermolecular helix bundle.

133 Subsequently, intermolecular hydride transfer occurs, with the Lewis a

134 nerates products via a process that involves intermolecular hydride transfer to generate an imine int

135 The intermolecular hydroamination of unactivated alkenes wit

136 e in the initial cyclization step through an intermolecular hydrogen bond and the phosphate anion pro

137 ssive replacement of unordered structures by intermolecular hydrogen bonded beta-sheets and aggregate

138 self-assembly formation is stabilized by the intermolecular hydrogen bonding between C horizontal lin

139 ulating with PG that was associated with the intermolecular hydrogen bonding between the hydroxyl gro

140 idine also allow for the direct detection of intermolecular hydrogen bonding interactions through the

141 r structure that is stabilized by intra- and intermolecular hydrogen bonding, including an extended b

142 may open the door for accurately determining intermolecular hydrogen bonds in carbohydrate-protein co

143 , which is designed to self-assemble through intermolecular hydrogen bonds to beta-sheets thereby pla

144 eceptor binding pocket, the dense network of intermolecular hydrogen bonds, and the similarity of bin

145 undergoes facile decomposition via intra- or intermolecular hydrogen-atom abstraction (HAA) from an i

146 Intermolecular hydrogen-bond rearrangement, required for

147 Additional stabilization is provided by intermolecular hydrogen-bonding interactions between aci

148 Highly optimized and symmetric intermolecular hydrogen-bonding interactions between the

149 a protein in which transient and nonspecific intermolecular hydrophobic contacts are formed by disord

150 t move apart, to give rise to the well-known intermolecular in-register parallel beta-sheet structure

151 us demonstrating the pivotal balance between intermolecular interaction and molecular mobility for op

152 Current target-based screening and intermolecular interaction assays generally do not inclu

153 esults here demonstrated that the balance of intermolecular interaction between TC-TC, TC-DA, and DA-

154 This chemistry occurs as a result of the intermolecular interaction determined by the crystalline

155 ransfer to formate, is offset by the gain in intermolecular interaction energy between HCOO(-) and H2

156 and very sensitive technique for determining intermolecular interaction interfaces in large biomolecu

157 In the absence of this ligand, the intermolecular interaction is repulsive and supramolecul

158 ents the side chain of M44 and induces a new intermolecular interaction of actin residue M47 (M47-O-T

159 acetate is a relatively small molecule, weak intermolecular interaction provides the energy required

160 likely to segregate when the variance in the intermolecular interaction strengths exceeds a well-defi

161 ntrol (strength of the directionality in the intermolecular interaction) and entropic control (temper

162 ly to the duplex, offering opportunities for intermolecular interaction.

163 mer states can form as a result of intra- or intermolecular interactions across a range of environmen

164 te that, in addition to kinetic limitations, intermolecular interactions also play a significant role

165 available ions and the complex interplay of intermolecular interactions among them, thus resulting i

166 s of CF2-H...O hydrogen bonds in influencing intermolecular interactions and conformational preferenc

167 ial chemical features driving protein-ligand intermolecular interactions and NNMT inhibition.

168 , tools for analyzing crystal structures and intermolecular interactions are briefly discussed.

169 ition of the cytosol or the strengths of the intermolecular interactions are needed to regulate the f

170 Intermolecular interactions between apoE molecules were

171 gests that telopeptides facilitate transient intermolecular interactions between collagen proteins, e

172 a fundamental measure of the strength of the intermolecular interactions between its constituent moie

173 This result implies that weak intermolecular interactions between photo-oxidized dyes

174 nct PRE profiles, indicating the presence of intermolecular interactions between residues within the

175 d by NMR spectroscopy to study the transient intermolecular interactions between such intermediate sp

176 The fibrils are defined by intermolecular interactions between the fibril-forming p

177 measurements reveal a striking difference in intermolecular interactions between two short highly cha

178 mutations that affect the intramolecular and intermolecular interactions controlling the off state of

179 A judicial combination of four different intermolecular interactions forms the basis for the robu

180 s and absolute concentrations, and determine intermolecular interactions from single-channel or multi

181 s consistent with the absence of significant intermolecular interactions in () in the range of 3.0 to

182 s provide a powerful tool for characterizing intermolecular interactions in large assemblies in the s

183 systematically ablated a series of proposed intermolecular interactions in the Bacillus subtilis Par

184 gate PL reveal that triplets are quenched by intermolecular interactions in the bulk state.

185 tively and reversibly sense and image intra-/intermolecular interactions of biologically important ta

186 Intermolecular interactions of ncRNAs are at the core of

187 ation on structure, topology, and intra- and intermolecular interactions of other seven-transmembrane

188 haride composition, mobility, hydration, and intermolecular interactions of the inflorescence cell wa

189 The influence of DOM intermolecular interactions on adsorption were minimal b

190 nderstanding of the most important effect of intermolecular interactions on the vibrational modes of

191 ory to reveal insights into the influence of intermolecular interactions on the vibrational spectra o

192 Weak noncovalent intermolecular interactions play a pivotal role in many

193 ons, resulting in altered intramolecular and intermolecular interactions propagated from under the 3-

194 HAstV capsid provides valuable insights into intermolecular interactions required for capsid assembly

195 However, the intra- and intermolecular interactions stabilized by hydrogen bonds

196 lex exhibits the involvement of non-covalent intermolecular interactions that are localized within an

197 organelles are multicomponent, with numerous intermolecular interactions that can potentially affect

198 nd physicochemical properties and intra- and intermolecular interactions that can translate to improv

199 loops and shows five intramolecular and five intermolecular interactions that keep the IHM in a compa

200 saccharides, proteins, and DNA stabilized by intermolecular interactions that may include non-polar c

201 other hand, incorporation of F would improve intermolecular interactions through CF...S, CF...H, and

202 mapping protein surfaces predisposed to HTB1 intermolecular interactions to construct a focused HTB1

203 designed an analog of C1 that introduced new intermolecular interactions to strengthen attractions wh

204 donor and an acceptor, however, the dominant intermolecular interactions were C-H...pi, which likely

205 s in functional reactivity, from fundamental intermolecular interactions with a biological target, fr

206 nterested in studying any phenomena based on intermolecular interactions with ligands via molecular m

207 e that palmitoylation, SH2- and SH3-mediated intermolecular interactions, and the catalytic activity

208 abundant beta-sheet-like mainchain:mainchain intermolecular interactions, confers significant strengt

209 inal helix of the bHLH domain is involved in intermolecular interactions, even in the absence of DNA.

210 cated by solvent effects and the dynamics of intermolecular interactions, meaning that information on

211 s may be made regarding molecular structure, intermolecular interactions, property trends, and reacti

212 anethiols, with higher rigidity and stronger intermolecular interactions, they have been scarcely exp

213 er this type of binding can generally modify intermolecular interactions, we show that it leads to an

214 ative movements are essential to accommodate intermolecular interactions.

215 rm stable tertiary folds aided by long-range intermolecular interactions.

216 e a precise description of the energetics of intermolecular interactions.

217 al, electronic, and device properties of the intermolecular interactions.

218 interfaces, environmental interactions, and intermolecular interactions.

219 s, distinguishing its catalytic activity and intermolecular interactions.

220 tivator-peptide interaction and prevented AR intermolecular interactions.

221 (NECEEM) is an efficient method for studying intermolecular interactions.

222 eet at the A/W interface and presents strong intermolecular interactions.

223 ts in the network relies on weak short-range intermolecular interactions.

224 manipulated in the solid state by exploiting intermolecular interactions.

225 s are readily accomplished and we derive the intermolecular interface between CFL2 and F-actin.

226 ation of an arginine side chain, leaving the intermolecular interface otherwise unperturbed.

227 of cofilin on F-actin and the details of the intermolecular interface remain poorly understood at ato

228 heterodimer with a predominantly hydrophobic intermolecular interface; this heterodimer formed a high

229 urs through a mechanism involving intra- and intermolecular ion hopping through formation and breakin

230 versible coiled-coil interactions or through intermolecular isopeptide linkages.

231 imilar to the WT enzyme, high noncompetitive intermolecular kinetic deuterium isotope effects (>/= 5.

232 and connect broken DNA, thereby stimulating intermolecular ligation.

233 Intermolecular London dispersion interactions between co

234 media at neutral pH to form peptide-peptide intermolecular macrocycles with highly tunable ring size

235 ion of primary benzamides with acrylates via intermolecular N-alkenylation followed by intramolecular

236 trazido ((Ar)L)Fe(kappa(2)-N4Ad2), undergoes intermolecular nitrene transfer to phosphine, abstracts

237 s using DDQ can be coupled with an intra- or intermolecular nucleophilic addition to generate new car

238 O4 interacts with carbonyl oxygen, promoting intermolecular nucleophilic attack by the only weakly nu

239 undergoes facile cyclization as a result of intermolecular nucleophilic substitution (SNAr).

240 t of antiaromatic pi-systems on the basis of intermolecular orbital interactions.

241 nding dimer using various pathways including intermolecular oxidative aromatic coupling.

242 electivity and the effects of oxidant in the intermolecular oxidative C-H/C-H coupling reactions.

243 r different substituents yield four distinct intermolecular packing geometries, resulting in variable

244 vels, enhanced light absorption and stronger intermolecular packing.

245 ility; however, it potentiated Hop1-promoted intermolecular pairing between double-stranded DNA molec

246 Additionally, we found that Hop1 promotes intermolecular pairing between G/C-rich DNA segments ass

247 llel configuration that is distinct from the intermolecular parallel beta-sheet structure observed in

248 Intermolecular paramagnetic relaxation enhancement broad

249 ransannular cycloaddition reactions included intermolecular Pauson-Khand reactions, transannular [4 +

250 d formation occurs from this species through intermolecular phosphide coupling.

251 ain, suggesting that both intramolecular and intermolecular PorB interactions contribute to host adap

252 ly, this MEG process has been observed as an intermolecular process in organic materials.

253 s-substrates that do not react at all in the intermolecular process.

254 ts are also observed in diffusion-controlled intermolecular processes directly after photoexcitation,

255 iles have hampered applications in selective intermolecular processes.

256 protein misfolding with consequent aberrant intermolecular protein aggregation.

257 imal nucleophilic residues to form intra- or intermolecular protein crosslinks.

258 d increase of G' reflecting the formation of intermolecular protein-protein interactions with higher

259 ling proteins and thereby mediate intra- and intermolecular protein-protein interactions.

260 ar activation of C1, suggesting instead that intermolecular proteolytic activation between neighborin

261 the two TAA units (tau = 65 ps), followed by intermolecular proton transfer from TsOH (tau approximat

262 plexes corresponding to the initial stage of intermolecular proton transfer.

263 d dynamics includes solvation and intra- and intermolecular proton-, electron-, and energy transfer e

264 arbonyl compounds, aldehydes and ketones, as intermolecular radical acceptors.

265 s is reported, which proceeds under entirely intermolecular reaction control.

266 alkali control strategy can also turn on an intermolecular reaction of an N2-derived nitride with me

267 e ability to control the chemoselectivity of intermolecular reactions in the presence of multiple rea

268 led DNA relaxation, and DNA knotting but not intermolecular reactions such as decatenation of linked

269 roscopic characterization, kinetic analysis, intermolecular reactivity, and radical trap experiments)

270 This intermolecular recognition is established through JMJD6

271 he preference for intramolecular rather than intermolecular recognition of HA trimers on the virus su

272 osensor architecture based on analyte-driven intermolecular recombination and activity reconstitution

273 formation of unsymmetrical alkenes from the intermolecular reductive coupling of two different aldeh

274 Here, we review catalytic intermolecular reductive couplings of unactivated and ac

275 As the syn isomer fraction increases, intermolecular repulsion increases, resulting in a decre

276 these bioactive tRNA fragments assemble into intermolecular RG4s.

277 Furthermore, B2 RNA can form intermolecular RNA-RNA interactions with complementary m

278 The neutral radical gold compounds show intermolecular S...S interactions in the solid state giv

279 enetic studies, we also demonstrate that two intermolecular salt bridges between TolA and pIII provid

280 In the intermolecular selectivity studies, trifluoroacetic acid

281 rmation/cycloaddition in either an intra- or intermolecular sense to generate polycyclic N-heterocycl

282 to revealing the basic reactivity pattern in intermolecular settings, we demonstrate that this class

283 The implementation of intermolecular SF in photovoltaic devices has achieved a

284 to overcome certain design constraints that intermolecular SF materials possess, which may allow for

285 kely mechanism for triple helix unfolding is intermolecular shearing of collagen alpha-chains.

286 This structure is formed by intermolecular stacking of aromatic residues, which woul

287 rinciples, employing both intramolecular and intermolecular strategies, that are necessary for maximi

288 Surprisingly, reduction of the intermolecular sulfur-sulfur bonds of bull protamine res

289 Intermolecular tandem copper-catalyzed O-arylation-oxida

290 r multiplexing and also permits detection of intermolecular Tb(III)-to-dye Forster resonance energy t

291 An intermolecular, three-component reductive dicarbofunctio

292 ptomyces sp. CNB-091, which involves a novel intermolecular transesterification reaction catalyzed by

293 ctors is limited by the large fluctuation of intermolecular transfer integrals, often referred to as

294 nts, with the three-step syntheses of 10 new intermolecular transition metal FLPs being reported.

295 y between the propeller architecture and the intermolecular van der Waals interactions.

296 Intermolecular variants of the reaction require the form

297 the same monoboronic ester intermediates, an intermolecular version of this approach also afforded (Z

298 ther issues addressed in this review are the intermolecular vibrations that are more directly probed

299 Calculations further reveal that both intermolecular water nucleophilic attack and redox isome

300 C-C bond formation, either intramolecular or intermolecular, which proceeds in good to excellent yiel