ライフサイエンスコーパス: bonding

1 c interactions, involving hydrogen and ionic bonding.

2 en bonds of type YH-X analogous to secondary bonding.

3 utions and covalency in f-block metal-ligand bonding.

4 ile binds to the thiourea moiety by hydrogen bonding.

5 with precursor complex formation by hydrogen bonding.

6 re calculations show some degree of multiple bonding.

7 relation between affective touch and social bonding.

8 on in this newly reported sub-Tg solid-state bonding.

9 e probe changes in conformation and hydrogen bonding.

10 bicarbonate and sulfate anions via hydrogen bonding.

11 city-induced, molecular mobilization causing bonding.

12 ons, similar to those encountered in halogen bonding.

13 switching mode did not involve the chemical bonding.

14 ave considered are not relevant to molecular bonding.

15 link between the topology and local chemical bonding.

16 erties to its complete sp (3)-carbon network bonding.

17 of which is stabilized by in-plane hydrogen bonding.

18 (ether sulfone) (PES) membranes via covalent bonding.

19 indicate that dopamine is involved in human bonding.

20 brush into the GO nanochannels with chemical bonding.

21 dral amorphous structure and complete sp (3) bonding.

22 induced the aggregation of QDs via hydrogen bonding.

23 on transparent glass substrates via transfer bonding.

24 n theme related to (changes in) metal-ligand bonding.

25 hin the planes and extremely weak interlayer bonding.

26 in-group metal-boron complexes with multiple bonding.

27 ding in all GLUT1 conformations via hydrogen bonding.

28 in contrast to complexes with other types of bonding.

29 ry better-suited for intramolecular hydrogen bonding.

30 ered by the excitation of electrons into the bonding a1g orbital, and is then stabilized by a lattice

31 l that the receptor, owing to the enhanced H-bonding ability of thiourea groups, initially encapsulat

32 ed in Martian regolith, is identified as the bonding agent.

33 DC for 1 min and then bonded with the primer-bonding agent.

34 ade to develop new antimicrobial composites, bonding agents, and other resins containing quaternary a

35 ed with anthocyanins mainly through hydrogen bonding, although some hydrophobic interaction may also

36 zation in C6 D6 find aromaticity-modulated H-bonding (AMHB) energy effects of approximately +/-30 %,

37 In contrast to the case of hydrogen bonding among solvent water molecules, we find that ener

38 lar attraction and the "windmill" pattern of bonding among the fully halogenated molecules.

39 sons with control species or solely hydrogen-bonding analogues reveal unique characteristics in terms

40 Bonding analyses (NBO and QTAIM) and the isolobal relati

41 Chemical bonding analyses show that PrB7(-) can be viewed as a Pr

42 nal noncovalent interactions such as halogen-bonding and anion-pi interactions.

43 om the large energy gap between the Fe-NO pi-bonding and antibonding molecular orbitals relative to t

44 pairs to drug-receptor binding, hydrogen (H-)bonding and aromaticity are common features of heterocyc

45 omophenyl 4'-nitrobenzoate where the halogen bonding and C-H...O hydrogen bonding are well-matched.

46 observations suggest decreased RNA hydrogen bonding and changed RNA conformation upon IRP1 binding a

47 mes ranging from 35 to 219 A(3) via hydrogen bonding and electrostatic interactions.

48 he substrate carbon atoms undergo changes in bonding and hybridization during a single enzyme-catalyz

49 s and demonstrate the importance of hydrogen bonding and hydrophobic interactions in the oligomerizat

50 sugar pucker, due to intramolecular hydrogen bonding and hyperconjugation effects.

51 e report a targeted modification of hydrogen bonding and its effect on guest binding in redox-active

52 Understanding the nature of chemical bonding and lattice dynamics together with their influen

53 Bonding and stability depend strongly on the trans effec

54 most of the selected studies recommend resin bonding and suggest even greater success with composite

55 nal change driven by the collective hydrogen bonding and the sequence-mandated topology of the molecu

56 w trends correlating composition, structure, bonding and thermal properties.

57 strong mixing between orbitals upon hydrogen bonding and, thus, inhibits substantial charge transfer

58 experimental evidence for enhanced hydrogen bonding and/or icebergs in such solutions.

59 s 6s orbital lies too high to be involved in bonding, and contributes to Rydberg levels only.

60 y components include van der Waals, hydrogen bonding, and dipole interactions; side-chain conformatio

61 drogel into the damage site, strong hydrogen bonding, and molecular interdiffusion.

62 The combination of strain and hypervalent bonding, and the way they work in concert to yield this

63 forces, as opposed to complementary hydrogen bonding, and while they are both retained within the in

64 on in a simple model accurately predicts the bonding/anti- bonding modes that are measured experiment

65 ere the halogen bonding and C-H...O hydrogen bonding are well-matched.

66 e critical element for the enhanced hydrogen bonding around a hydrophobic solute.

67 These forces may include H-bonding as indicated by sorption enthalpy determined by

68 Herein, the interplay of these bonding aspects is explored.

69 stem, by focusing on the role of interfacial bonding at the active TiO2-Pt interface, as opposed to a

70 Hydrogen bonding at the indole amine most likely stabilizes the r

71 rtoire to investigative behaviors and social bonding behaviors and less to foraging and comfort behav

72 apoptosis, switching function by modulating bonding between a heme iron and the sulfur in a methioni

73 n C1C2, no direct or water-mediated hydrogen bonding between an aspartate and a cysteine (D156-O...S-

74 proposed to offer the advantages of a strong bonding between GO and fiber device surface and a homoge

75 up aggression dissipated and the benefits of bonding between immigrating members increased.

76 ectrostatic interactions as well as hydrogen bonding between phospholipid head groups and amine group

77 associated with the intermolecular hydrogen bonding between the hydroxyl groups of QC and PG.

78 Evidence of hydrogen bonding between the N-H group of nifedipine and the C=O

79 1 bar (6.0 mmol g(-1)) and involves hydrogen bonding between the OH group of the host and the O-donor

80 quare-shaped pieces due to the van der Waals bonding between the sulfur atoms of the quintuple layers

81 crystallines, which was believed to form the bonding between these two metals in addition to mechanic

82 gs" arising from strengthened water hydrogen bonding, but there is no experimental evidence for enhan

83 n electron donation from nitrogen, molecular bonding C/N/O coordination or/and lattice structure reor

84 pramolecular networks stabilised by hydrogen bonding can be formed on BP, and that these monolayer-th

85 strate that interactions other than hydrogen bonding can contribute to every step of information stor

86 y absorption spectroscopy to confirm halogen bonding can exist at the dye-electrolyte interface.

87 [methylpi] coordination and [C-HO] hydrogen bonding-can readily invert the relative thermodynamic st

88 By providing additional hydrogen-bonding capacity, the Pro-->2-Hyp conversion alters the

89 s been developed via the merger of NHC and H-bonding catalysis.

90 1,3-Disiloxanediols are effective hydrogen-bonding catalysts that exhibit enhanced activity relativ

91 r interactions, such as hydrogen and halogen bonding, cation-pi, anion-pi, C-H-pi, pi-pi, C-H-anion i

92 The bonding changes are thus temporally separated at a "dyna

93 ant cations and oxygen vacancies and observe bonding changes in lanthanum-doped ceria catalyst partic

94 Owing to its bonding characteristic, most carbon allotropes possess t

95 mical composition, electronic structure, and bonding characteristics determine catalytic activity but

96 Bonding characteristics shed light on the reasons for th

97 ramolecular interactions, known as chalcogen bonding (ChB), with Lewis bases.

98 ramolecular cation, featuring short hydrogen-bonding contacts between the electron-poor POM and elect

99 xidations in the presence of a very strong H-bonding cosolvent (DMSO), which slowed the observed rate

100 The "art form" of parent-infant bonding critically involves baby conveying negative emot

101 ocial affiliation, and particularly maternal bonding, depends on reward circuitry.

102 We demonstrate that the subtle bonding differences among trivalent lanthanides can be a

103 ck base pairing but have rearranged hydrogen bonding donor and acceptor groups.

104 organic crystal engineering, where double-H-bonding donor boronic acids could act as suitable organo

105 ture: betagal with uniformly distributed DNA bonding elements results in body-centered cubic crystals

106 ound among hydrogen exchange rates, hydrogen bonding energies, and amino acid solvent-accessible area

107 Hypervalent bonding ensues.

108 The mutant R411A(alpha) disrupts the H-bonding environment and conformation of Y731, ostensibly

109 g the detailed characterization of the local bonding environment, charge compensation mechanisms, and

110 ing density, dielectric properties, hydrogen bonding, etc.

111 th their myriad compositions, structures and bonding exhibit an incredibly diverse range of propertie

112 Lack of back-bonding facilitates alkyne slippage, which is energetica

113 fully characterized experimentally and their bonding features were analyzed by theoretical calculatio

114 piezochromic assemblies assisted by halogen bonding for haptic memory.

115 demonstrating the utility of mussel-inspired bonding for processing a wide range of polymeric interfa

116 d in appreciable potential wells by chemical bonding forces, despite powerful electrostatic oppositio

117 The bonding formation for ultrasonic welding of dissimilar m

118 ve been immobilized on SH groups of GQDs via bonding formation of Ag-S and anti-HCV have been loaded

119 modules in DCM-d2 solution, through halogen bonding, forming oligomeric assemblies.

120 on to the fully reduced state, with hydrogen bonding from Lys397, and two electrons are transferred f

121 Hydrogen-bonding from MeOH is critical for the hyponitrite comple

122 tification of peptides involved in disulfide bonding from nonreduced proteolytic digests, due to the

123 trostatic interactions, but whereas hydrogen bonding has a well-documented record of stabilizing unst

124 g (HVB), secondary bonding (SB) and hydrogen bonding (HB) a nucleophilic and an electrophilic partner

125 Both hydrogen bonding (HB) and halogen bonding (XB) are essentially el

126 yridinyl)isophthalamide-barbiturate hydrogen-bonding host-guest complexes are separately incorporated

127 vole (Microtus ochrogaster) model of social bonding, how a functional circuit from the medial prefro

128 In hypervalent bonding (HVB), secondary bonding (SB) and hydrogen bondi

129 synthesized, revealing that the strongly pi-bonding imido functionality prevents significant metal-m

130 The bonding in 25 and the mechanism and thermodynamics of th

131 ew GO deposition technique based on chemical-bonding in conjunction with physical-adsorption was prop

132 vestigations of the neurochemistry of social bonding in humans, for which this study provides initial

133 The nature of the bonding in isomeric 3 and 4 was probed by experimental a

134 ing along the (001) face and weak dispersive bonding in multiple directions.

135 The bonding in solid CP 3 involves noninteger redox states i

136 The bonding in such complexes can be described by means of s

137 C gives insight into the extent of hydrogen bonding in supercritical water.

138 This has allowed the structure and bonding in the CCF motif to be explored.

139 Besides hydrogen bonding in the major groove (base readout), proteins rec

140 s are currently lacking to include disulfide bonding in the MD models of protein folding.

141 ceptor can dramatically impact the nature of bonding in these complexes.

142 The nature and extent of hydrogen bonding in water has been scrutinized for decades, inclu

143 culations to quantify the extent of covalent bonding in-arguably-one of the most difficult systems to

144 ilized by intra- and intermolecular hydrogen bonding, including an extended beta-sheet structure, as

145 ion-pair formation, and we obtain NBO-based bonding indices to characterize other electronic, struct

146 patient dyad and completed the Nurse-Patient Bonding Instrument.

147 The importance of the H-bonding interaction as a prerequisite for reductive clea

148 selectivity is the result of a key hydrogen bonding interaction between the substrate and catalyst.

149 le the benzonitrile group accepts a hydrogen-bonding interaction from the side chain residue of Asn31

150 suggested the extended CD-loop and hydrogen-bonding interaction network within the ZIKV envelope pro

151 let, BOMD simulation shows that the hydrogen-bonding interaction of (SO2)O...H(H2O) becomes increasin

152 nce combined with a weak allosteric hydrogen-bonding interaction that significantly lowers the activa

153 cals, rationalizing the insensitivity of the bonding interaction to substituents: The stacking of pol

154 An interesting substrate-solvent hydrogen-bonding interaction was observed.

155 O6 coordination, and 3) binding via hydrogen-bonding interaction with the first-shell water molecules

156 l energies was consistent with the chalcogen-bonding interactions being dominated by n --> sigma* orb

157 he crystal structure shows that the hydrogen bonding interactions between pairs of 3 result in the fo

158 bsetCBPQT(4+) reveal that [C-H...O] hydrogen bonding interactions between the acidic alpha-H protons

159 H-bonding interactions between the sugar and the protein a

160 pyridine N-oxide groups form duplexes via H-bonding interactions between these recognition units.

161 the prevalence and applications of chalcogen-bonding interactions continues to develop, debate still

162 very similar geometric features and hydrogen bonding interactions for the characterized stationary po

163 Our results illustrate that weak bonding interactions in polyelectrolyte-azobenzene surfa

164 c structure and orbitals responsible for the bonding interactions in the Sc-OCPPCO-Sc skeleton but al

165 polymerization step is regulated by hydrogen-bonding interactions made between the incoming nucleotid

166 tio molecular dynamics simulations, hydrogen-bonding interactions of two key principal amine compound

167 ggested that resulting intraluminal hydrogen bonding interactions stabilize the open-channel state.

168 ength has on the strength of the noncovalent bonding interactions taking place between cyclobis(paraq

169 ucture reveals a pi-pi stacking and hydrogen bonding interactions that stabilize the new protein inte

170 t that an amide can mimic important hydrogen bonding interactions with proteins required for RNAi act

171 Furthermore, G40 can also establish hydrogen bonding interactions with the nonbridging oxygen of the

172 mation allow the amide to establish hydrogen bonding interactions with the protein.

173 polarized-covalent thorium-arsenic multiple bonding interactions, hitherto restricted to cryogenic m

174 s such as the role of Coulombic and hydrogen-bonding interactions.

175 perative steric, electrostatic, and hydrogen-bonding interactions.

176 s phase due to strong Coulombic and hydrogen-bonding interactions.

177 tric complex that is stabilized via strong H-bonding interactions.

178 O dimers or complexes with enhanced hydrogen bonding interactions.

179 oinspired environment with multiple hydrogen-bonding interactions.

180 via a mix of positively charged and hydrogen-bonding interactions.

181 tigated the microstructure and phases at the bonding interface of ultrasonically welded aluminum to c

182 the complex thermomechanical behavior at the bonding interface.

183 Adult pair bonding involves dramatic changes in the perception and

184 ing the recognition sites), intramolecular H-bonding is favored, and the folded state is highly popul

185 Pervasive H-bonding is found at all interdomain interfaces, which ma

186 Transition-metal-boron double bonding is known, but boron-metal triple bonds have been

187 Interatomic bonding is stronger in Cr2AlC than Zr2AlC but contrary t

188 s that the enhanced PL due to increased Mo-O bonding leads to p-type compensation doping, and is acco

189 The role of hydrogen bonding led us to the rotation of NH4(+) within its solv

190 actured using origami-like sheet folding and bonding methods.

191 model accurately predicts the bonding/anti- bonding modes that are measured experimentally.

192 terocycles with analogs that have the same H-bonding moieties but lack cyclic pi-conjugation.

193 nal intermediate is arrested by the hydrogen-bonding motif to yield benzoxazinone.

194 to the co-operative geometry of the hydrogen bonding motif.

195 molecular resolution, which directly reveals bonding motifs and electronic features.

196 cogenides with unprecedented one-dimensional bonding motifs.

197 Their strong ionic bonding nature results in highly dynamic crystal lattice

198 s of NOEs, and a previously unknown hydrogen-bonding network between Man3 and CV-N was discovered.

199 al center are supported through the hydrogen-bonding network in a fashion reminiscent of the enzymati

200 uggests that a Ser(84)-H2O-Lys(114) hydrogen-bonding network in human serine racemase lowers the pKa

201 t is shown that mutations where the hydrogen bonding network that involves the Tyr140 and Trp243 resi

202 en replaced by His264 strengthens a hydrogen-bonding network, leading to a more stable virus.

203 site ends of the RH1 intramolecular hydrogen-bonding network.

204 The differences between hydrogen bonding networks of cellulose surface and crystalline co

205 The H-bonding networks within the nanoclusters resemble the re

206 fferences in the OH bond strengths, hydrogen bonding networks, and the presence or absence of electro

207 The structure and bonding of a Pr-doped boron cluster (PrB7(-) ) are inves

208 omplex structures by using directional S...N bonding of benzothiadiazole units and other characterist

209 misorbed CO2 structures that are formed upon bonding of CO2 with surface amines and readily released

210 Furthermore, the structure and bonding of compound 1 has been investigated by theoretic

211 s (G4), which are stabilized by the hydrogen bonding of guanine residues.

212 yaromatic surfaces, and very strong hydrogen bonding of ionizable compounds with surface functional g

213 ese results provide a benchmark for hydrogen bonding of other nitrogen-containing acids and bases.

214 here are no clinical long-term data on resin bonding of partial-coverage high-strength ceramic or mon

215 ere assembled through pH-assisted thiol-gold bonding of single stranded DNA and salt aging, with prec

216 by the cis-isomer is suppressed by hydrogen bonding of the cis-aldehyde carbonyl with the DHAP enami

217 rise to a substantially enhanced equatorial bonding of the uranyl(VI) ions as elucidated by the sing

218 An insulating PH5 phase, the structure and bonding of which is reminiscent of diborane, is also pre

219 , thereby regulating the chiral directional "bonding" of gold nanorods decorated by the surface adapt

220 heretofore unknown propensity of a hydrogen-bonding OH-arene interaction to switch to the alternativ

221 at the two discharging plateaus, while C-Cl bonding on the surface, or edges of natural graphite, is

222 Three further VP24 mutations change hydrogen bonding or cause conformational changes.

223 as hot electrons are injected into the anti-bonding orbital of a critical intermediate, while carbon

224 chalcogen p orbitals and the intermetal t2g-bonding orbitals within the basic triangular pyramid str

225 d is generally given in terms of delocalized bonding orbitals, or, alternatively, in terms of correla

226 3 symmetry involving two degenerate Sc-N2-Sc bonding orbitals.

227 e pKa's of several families of dual hydrogen-bonding organocatalysts/anion receptors, including delta

228 No-bonding outcomes (i) during the uniaxial compressive str

229 Formal removal of two bonding partners from boranes, BR3, yields borylenes, RB

230 r form a new bond that is based on a similar bonding pattern across the whole series of interactions.

231 for a solvent-directed switch of both the H-bonding pattern and the handedness of foldamer helices a

232 the Trpin/Metout conformation, the hydrogen-bonding pattern conducive to the proton relay is not the

233 rather than from the strong and predictable bonding patterns found in metal-organic frameworks and c

234 can be generally applied to examine hydrogen-bonding patterns in nucleic acid transient states includ

235 xanes show different intercomponent hydrogen bonding patterns.

236 00 cm(-1) due to their different OH hydrogen-bonding patterns.

237 e to characterise quantitatively, how well a bonding picture describes the chemical system.

238 ion clustering provides a reason for debated bonding picture.

239 stortion, forming an extensive conjugated pi-bonding planar structure.

240 ed endosomal escape in living cells.Hydrogen bonding plays a major role in determining the tridimensi

241 van der Waals packing and Calpha-H hydrogen bonding predicts the experimental trend of dimerization

242 There is no correlation between the H-bonding properties of the anions and the pKa values of t

243 ctrostatics, stability and folding, hydrogen bonding, protonation, solvation, dynamics, and interacti

244 nds lags far behind our understanding of the bonding regimes of any other series of elements.

245 lly review and discuss the evidence on resin bonding related to long-term clinical outcomes of tooth-

246 One property of chemical bonding renders 1,3-substituted allenes chiral, making t

247 Intramolecular H-bonding represents a useful strategy to limit internal w

248 inding that the desolvation/loss of hydrogen bonding required to leave the membrane partitioned posit

249 middle regions have adequate hydration and H-bonding residues to form potential proton-conducting cha

250 stable anions, little is known about halogen bonding's ability to do so.

251 In hypervalent bonding (HVB), secondary bonding (SB) and hydrogen bonding (HB) a nucleophilic an

252 From a molecular orbital perspective, the bonding scheme is reminiscent of XeO4 : an octet of elec

253 gap at the Fermi energy arising from an 18-n bonding scheme.

254 inly the valence s-orbitals when forming the bonding sigma-orbitals.

255 The emerging Fe-O2 bonding situation includes in essence a ferrous iron cen

256 etic contributions to enable this remarkable bonding situation.

257 nal studies are demonstrating how covalently bonding, soft, carbocyclic organometallic ligands provid

258 ies of periodic cracks in SiN films, self-de-bonding sol-gel films, and even drying colloidal films,

259 ding nonpolar, aromatic, polar, and hydrogen bonding solvents.

260 During GO:Nx synthesis, different nitrogen-bonding species, such as pyrrolic/graphitic-nitrogen, we

261 cona B-DNA consortium, we extracted hydrogen bonding, stacking and solvation energies of all combinat

262 s that electrical resistance and interfacial bonding status are highly coupled together.

263 pecifically in response to sexual and couple-bonding stimuli.

264 Here, we use genetic tethering and disulfide bonding strategies to construct HslU pseudohexamers cont

265 Their electronic/bonding structures were investigated using X-ray absorpt

266 Proper pretreatment of the bonding surfaces and application of primers or composite

267 pyridyl-acyl E-hydrazone acts as a hydrogen bonding template that directs the assembly of a benzylic

268 topical delivery of retinoids by covalently bonding the drug through a hydrolytically degradable est

269 Aside from in-plane electronic bonding, the hybridization among out-of-plane boron orbi

270 As expected from the weak interlayer bonding, the through-plane thermal conductivity is the l

271 anomethyl radicals were synthesized, and the bonding thermodynamic parameters for self-dimerization w

272 adsorb the uranyl sulfates through hydrogen bonding thus facilitated electro-reduction.

273 B hemispheres, geometrically rigidified by H-bonding to eight MeOH molecules and encapsulation of two

274 e epoxidation pathways, promoted by hydrogen-bonding to either the in situ formed ammonium moiety or

275 d, but understanding of how orphans allocate bonding to reconstruct their social networks is limited.

276 This binding mode requires H-bonding to Ser119 and a dramatic conformational switch i

277 being coupled with assistance from hydrogen-bonding to the ammonium moiety.

278 , creating a secondary surface that promotes bonding to the bulk mfps.

279 O molecule, but differs dramatically in its bonding to the framework, which in turn affects the crys

280 disfavoring conformations in which hydrogen-bonding to the hydroxyl group results in direction of th

281 at the fibril edge while interfering with H-bonding to the next incoming monomer exhibit poor amyloi

282 es O-O homolysis, where the phenol remains H-bonding to the peroxo OCu in the transition state (TS) a

283 rincipal amine compounds imposed by hydrogen bonding to water, where a pH-dependent excitation energy

284 ting a significant reduction in Fe-->CO back-bonding upon its coordination to silver(I).

285 ared to the pulsed laser deposition or wafer bonding used in the fabrication of NRPS devices.

286 r reaction with halides in solution, halogen bonding was detected only in cases where brominated and

287 tures stabilized by inter-base-pair hydrogen bonding was observed.

288 n of sub-Tg, solid-state, plasticity-induced bonding; where amorphous polymeric films were bonded tog

289 bic interactions are accompanied by hydrogen bonding with beta5i and beta6 subunits.

290 NESs also participate in main chain hydrogen bonding with human CRM1 Lys568 side chain, which acts as

291 The hydrogen bonding with the amide groups in the side chains has to

292 ide chain metal ligand to allow for hydrogen bonding with the substrate, and creation of a twisted pe

293 nd gamma phases, characterized by octahedral bonding with vdW gaps and tetrahedral bonding without vd

294 drophilic exfoliated flakes and subsequently bonding with water, not possible in Nafion composites ba

295 hedral bonding with vdW gaps and tetrahedral bonding without vdW gaps, respectively, are shown to hav

296 r capsules were assembled by neutral halogen bonding (XB) and studied in the solid state, in solution

297 Both hydrogen bonding (HB) and halogen bonding (XB) are essentially electrostatic interactions,

298 ith isomorphic co-crystals formed by halogen-bonding (XB) between tritylacetylene halides (TrX) and d

299 s (X = Cl, Br) engage in significant halogen bonding (XB) interactions C-X...||| with the hosts.

300 geometric interaction constraints of halogen bonding (XB), the noncovalent interaction between an ele