ライフサイエンスコーパス: structural characterization of

1 han 20 such potential substrates, as well as structural characterization of 12 resulting unknown prod

2 The structural characterization of 3-ring and 4-ring MDA iso

3 MaizeSNP50 Bead Chip was used for a detailed structural characterization of 89 introgression lines.

4 , we report the biochemical, functional, and structural characterization of a 130-amino-acid protein,

5 and is exemplified here by the synthesis and structural characterization of a [13]rotaxane, containin

6 This study focuses on the structural characterization of a biosensor for NE activi

7 r study presents the first atomic resolution structural characterization of a client protein bound to

8 zenes and Cp*RuCl was studied and led to the structural characterization of a Cp*RuCl(eta(2)-alkyne)

9 Here we report the structural characterization of a diamond composite hiera

10 bacterial cellulose biosynthesis, including structural characterization of a functional cellulose sy

11 In this work, we report the structural characterization of a group 6 LEA protein fro

12 Here we describe the mechanistic and structural characterization of a high affinity inactivat

13 Here, we report detailed kinetics and structural characterization of a highly selective submic

14 Here, we report the structural characterization of a Mo(2)CT(x):Co phase (wh

15 The latter represents the first structural characterization of a monohydrido bridged iso

16 The first structural characterization of a mononuclear, EPR-active

17 enzoate hydroxylase and represents the first structural characterization of a monooxygenase involved

18 Structural characterization of a neutralizing antibody (

19 It is illustrated through the structural characterization of a new highly air-sensitiv

20 report on the evolutionary, biological, and structural characterization of a novel bat adenovirus (B

21 Here we report the first molecular and structural characterization of a novel cell-surface prot

22 Here, we report the first isolation and structural characterization of a product of MoaA.

23 Cp''3 is also reported, comprising the first structural characterization of a Pu-C bond.

24 Here we present the structural characterization of a recombinant form of hum

25 re, we describe the synthesis and functional/structural characterization of a series of reversible ti

26 Here we report the isolation and structural characterization of a simple coordination com

27 e, mechanistic cross-linking facilitates the structural characterization of a stable hexameric comple

28 into the collagen degradation mechanism and structural characterization of a subtilisin-like collage

29 Here we report the isolation and structural characterization of a thermally stable compou

30 This work constitutes the most extensive structural characterization of a viral lncRNA and intera

31 Herein, we report the in vivo, in vitro, and structural characterizations of a nonheme diiron monooxy

32 We report the initial structural characterization of AbetaM01-42 fibrils utili

33 ed heterogeneous catalysts requires detailed structural characterization of active sites, an essentia

34 what has been learned from this atomic-level structural characterization of affinity maturation in HI

35 modeling provided a first, to our knowledge, structural characterization of an entire NOX enzyme.

36 erall, these results provide a comprehensive structural characterization of an iGluR intermediate sta

37 ding the isolation of key intermediates, the structural characterization of an iron-metallacycle, and

38 otential of polarized Raman spectroscopy for structural characterization of anisotropic biological sp

39 ly available for B19, and there is a lack of structural characterization of any B19 epitopes.

40 Here, we present a kinetic and structural characterization of AsFMO that suggests a pos

41 Herein, we report on the detailed structural characterization of atmospherically relevant

42 By providing structural characterization of authentic C-H functionali

43 pite recent advances in the phylogenetic and structural characterization of bacteriophages, only a sm

44 roviding unprecedented opportunities for the structural characterization of biological macromolecules

45 metry are two well-established tools for the structural characterization of biomolecular complexes.

46 Computational modeling is essential for structural characterization of biomolecular mechanisms a

47 ficiency of glycolipids but also facilitated structural characterization of both moieties.

48 X-ray structural characterization of both the kinetically and

49 Here we report the detailed biochemical and structural characterization of Bsp5, an imino acid reduc

50 Here we report the isolation and structural characterization of CAP257-RH1, an N276 glyca

51 Analysis of the elementary steps enabled structural characterization of catalytically relevant in

52 A recent structural characterization of cell walls from monocot s

53 Structural characterization of chemokines non-covalently

54 We report the genetic, biochemical and structural characterization of CmoB, the enzyme that rec

55 top-down analysis an indispensable tool for structural characterization of complex biomolecules.

56 Complete structural characterization of complex lipids, such as g

57 We show that this method is effective in structural characterization of complex RiPPs, including

58 Advances in the structural characterization of components of the human R

59 significantly expand the use of DEER for the structural characterization of conformational changes in

60 dissociation mass spectrometry (UVPD-MS) for structural characterization of cyclopropane rings in bac

61 Here, we report the biochemical and structural characterization of different mutant polymera

62 ptomic, and metabolomics analyses, including structural characterization of differentially expressed

63 Here, we present the synthesis and structural characterization of dinitrohydrazone (hydz) f

64 The structural characterization of diterpenoids accumulating

65 ion mobility and tandem MS analysis for the structural characterization of DOM.

66 Recent advances in the structural characterization of dopamine and serotonin tr

67 Full spectroscopic and structural characterization of each derivative establish

68 Structural characterization of EcBcsG(DeltaN) revealed t

69 red enzymes.Significant challenges exist for structural characterization of enzymes responsible for b

70 Structural characterization of epitope-paratope pairs ha

71 al enthalpy calculations in conjunction with structural characterization of ethylene binding in Co2(m

72 g the in-depth biochemical, biophysical, and structural characterization of FadD32, we investigated i

73 Structural characterization of FluA-20 with H1 and H3 he

74 re an in-depth biochemical, biophysical, and structural characterization of four FadD32 orthologs, in

75 In this study, we present the structural characterization of full-length IRF4.

76 relevance to cell function and pathogenesis, structural characterization of full-length tandem-repeat

77 he in meso crystallization technique for the structural characterization of G-protein coupled recepto

78 Despite recent breakthroughs in the structural characterization of G-protein-coupled recepto

79 trap mass spectrometer as another option for structural characterization of GAGs.

80 reflectometry was employed as a first direct structural characterization of GCase and alpha-syn.GCase

81 n is an essential technique for the detailed structural characterization of glycans by mass spectrome

82 s drastically raised the demand for detailed structural characterization of glycans.

83 The need for detailed structural characterization of glycerophospholipids (GPL

84 ectrometry have made it a preferred tool for structural characterization of glycerophospholipids.

85 LC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especial

86 Accordingly, the identification and structural characterization of glycolipids from the cell

87 fer dissociation (ETD) alone is used for the structural characterization of glycopeptides.

88 d the glycan, thereby enabling comprehensive structural characterization of glycoproteins in a single

89 combinatorial technique allows for efficient structural characterization of GSLs in small tissue samp

90 To address the dearth of atomic-level structural characterization of heterochiral helix pairin

91 pects of applying physisorption for the pore structural characterization of hierarchical materials su

92 Structural characterization of highly sulfated glycosami

93 DNP-enhanced (19)F MAS NMR spectroscopy for structural characterization of HIV-1 CA assemblies, and

94 by a lack of dynamics measurements with and structural characterization of homogeneous isotypically

95 While structural characterization of homotypic chains has been

96 In summary, our structural characterization of human IP(3)R-3 provides c

97 ensive chemical data set for a more complete structural characterization of hydroxyterpenylic acids i

98 isotope labeling required for a detailed NMR structural characterization of IGF-II analogs that revea

99 s approach for label-free identification and structural characterization of individual viruses that i

100 s received increased attention; however, the structural characterization of intact precursor proteins

101 Detailed structural characterization of intact rough-type lipopol

102 Previous structural characterization of integrase-viral DNA compl

103 Now, we report the capture and structural characterization of intermediates produced du

104 of their large conformational heterogeneity, structural characterization of intrinsically disordered

105 a tool for quantitation and molecular-scale structural characterization of ionomers and proteins wit

106 ile X-ray crystallography routinely provides structural characterization of kinetically stable pre-ca

107 High-resolution structural characterization of lattices formed in the pr

108 Our structural characterization of LpSpl and its comparison

109 study, we present a novel method that allows structural characterization of mAbs based on MALDI in-so

110 analytical methods that afford comprehensive structural characterization of mAbs to ensure their stri

111 aps by providing a reliable, high-throughput structural characterization of macromolecular complexes

112 X-ray crystallographic structural characterization of many examples reveals ver

113 unique capabilities of X-ray scattering for structural characterization of materials in their native

114 Structural characterization of Mediator is challenging d

115 Structural characterization of membrane proteins and oth

116 We recently demonstrated a workflow for the structural characterization of metabolites detected by L

117 of fragment ions and thereby facilitate the structural characterization of metabolites.

118 -based metabolomics relies on MS(2) data for structural characterization of metabolites.

119 We then carried out an exhaustive structural characterization of metastable states on the

120 The structural characterization of modular proteins containi

121 ine enables both quantification and in-depth structural characterization of molecular lipid species e

122 ortant approaches for the identification and structural characterization of molecules by NMR, it is i

123 increasingly common and useful technique for structural characterization of molecules in solution.

124 S) is an important property that aids in the structural characterization of molecules.

125 mass spectrometry in the identification and structural characterization of molecules.

126 In addition, we present the first structural characterization of MOLP and oxidative additi

127 Structural characterization of MOS was carried out using

128 Herein, we present biochemical and structural characterization of MppR that demonstrates a

129 Here we report a detailed biochemical and structural characterization of MutM variants containing

130 Herein, we describe the first structural characterization of N-alkylated twisted amide

131 hich opens up exciting opportunities for the structural characterization of nanocrystals and their as

132 REAPR's advancement of de novo structural characterization of ncRNAs complements the id

133 Structural characterization of new alpha/gamma-peptide f

134 ization compatibility, which will enable the structural characterization of new NEMO/inhibitor comple

135 irectionality aspect in much greater detail: Structural characterization of nine curvopeptin biosynth

136 In this work we report the biochemical and structural characterization of Nocardia farcinica Lys mo

137 s simulations represents a powerful tool for structural characterization of not only isolated membran

138 Here, we describe the development and structural characterization of novel Escherichia coli Cu

139 In this study, we describe the structural characterization of novel flagellar glycans f

140 In situ structural characterization of numerous synaptic protein

141 One of the major challenges in structural characterization of oligosaccharides is the p

142 Structural characterization of one of these V2 Abs revea

143 As), has emerged as a powerful technique for structural characterization of organic small molecules.

144 s of MsbA to flip LPS, and paves the way for structural characterization of other lipid flippases.

145 The only current structural characterization of PE-PPE-EspG heterotrimers

146 Energetic insights emerging from the structural characterization of peptide cross-beta assemb

147 The structural characterization of peptide-protein complexes

148 is work is to set up a strategy for the full structural characterization of peptides including disulf

149 lation by PerR, we performed biochemical and structural characterization of PerR.

150 ays a foundation for further biochemical and structural characterization of PhaC, which could assist

151 k demonstrates a gas-phase means to increase structural characterization of phosphatidylcholines via

152 X-ray structural characterization of Pol eta complexed with si

153 A structural characterization of polysaccharides from edib

154 We report here on the design and structural characterization of potent peptidic inhibitor

155 of the B cell repertoire, and the increasing structural characterization of protective antigens and e

156 ased techniques with a modeling strategy for structural characterization of protein assemblies.

157 Structural characterization of protein complexes is esse

158 is a reference source of information for the structural characterization of protein interaction netwo

159 ern day drug discovery and requires detailed structural characterization of protein-ligand interactio

160 Structural characterization of protein-protein interacti

161 ectroscopy is a nondestructive technique for structural characterization of proteins and polypeptides

162 Structural characterization of proteins in the gas phase

163 tions and can become a valuable tool for the structural characterization of proteins.

164 stal production is a major bottleneck in the structural characterization of proteins.

165 ful application of Raman spectroscopy is the structural characterization of proteins.

166 upled with computational methods enables the structural characterization of purified 3-ring and 4-rin

167 lar probe to advance further mechanistic and structural characterization of RABV G that may aid in th

168 ethod expands the application of sPRE beyond structural characterization of rigid proteins and comple

169 We here describe a method for automated structural characterization of RiPPs by tandem mass spec

170 Next to the structural characterization of roquefortine F and neoxal

171 Structural characterization of Sac2 revealed a unique pl

172 Yet, while techniques for the elemental and structural characterization of samples have achieved sub

173 state transition remains debated despite the structural characterization of several archaeal M42 amin

174 To address this question, we performed a structural characterization of several HLA-A2/peptide co

175 Further documented is the isolation and structural characterization of several key transition-me

176 oelicolor, leading to the identification and structural characterization of six polyketides (three kn

177 Structural characterization of small molecule binding si

178 for HRAM MS and EID to be used as a tool for structural characterization of small molecules with a wi

179 wing discrimination of cathinone isomers and structural characterization of small molecules, includin

180 X-ray scattering analyses to provide in situ structural characterization of solar fuels catalysts.

181 e lack of in situ experimental tools for the structural characterization of solid porous materials du

182 Structural characterization of species belonging to each

183 We describe the isolation and detailed structural characterization of stable toxic oligomers of

184 knockouts provided negative controls for the structural characterization of stereid secondary cell wa

185 Structural characterization of Streptococcus pneumoniae

186 We report the solution and structural characterization of Streptococcus thermophilu

187 The structural characterization of sublayer surfaces of MIL-

188 We present here the first detailed structural characterization of such a target protection

189 The structural characterization of such diamonds remains a c

190 The structural characterization of such states has so far la

191 Structural characterization of sulfated glycosaminoglyca

192 structural data to provide the first general structural characterization of TE proteins and to estima

193 We report the synthesis and structural characterization of the ABX(3) perovskite fra

194 Despite recent structural characterization of the AQP0-CaM complex, the

195 hensive review describes the biochemical and structural characterization of the ARD family, the propo

196 A complete physicochemical and structural characterization of the as-made chiral HPM-1

197 Furthermore, structural characterization of the assembly of these bet

198 We present the first structural characterization of the Axl kinase domain in

199 Here, we report biochemical and structural characterization of the C-terminal three FF d

200 Detailed structural characterization of the catalyst binding site

201 We report here a structural characterization of the central 970 residues

202 Spectroscopic and structural characterization of the complex indicated red

203 linked to schizophrenia, a C4 inhibitor and structural characterization of the convertase formed by

204 lus licheniformis, along with solution-phase structural characterization of the Cu(I)-LPMO, showing t

205 Here, we performed a systematic structural characterization of the Cyt toxin interaction

206 the process of conducting these studies, rR structural characterization of the dioxygen adduct of LP

207 Structural characterization of the dynamic peptide/prote

208 s of these crystals by SFX should now enable structural characterization of the early events that dri

209 Here, we report the biochemical and structural characterization of the EctA enzyme from the

210 TFB2M around the LSP and represent the first structural characterization of the entire mitochondrial

211 However, significant challenges exist for structural characterization of the enzymes responsible f

212 Therefore, structural characterization of the FERM-folded active ta

213 We disclose the synthesis and structural characterization of the first acid-free anion

214 re, we report synthesis, crystal growth, and structural characterization of the first polynuclear hyd

215 a rational design as well as functional and structural characterization of the first self-assembling

216 Structural characterization of the free and MDM2-bound C

217 red states of proteins, we provide a precise structural characterization of the free energy landscape

218 Full structural characterization of the full-length oligomeri

219 Breakthroughs in the structural characterization of the HIV-1 Env trimer have

220 Structural characterization of the human Y4 receptor (hY

221 ler nanodiscs can also be beneficial for the structural characterization of the important class of se

222 Structural characterization of the inhibitors with BasE

223 In this study we offer biochemical and structural characterization of the interaction between T

224 Structural characterization of the intermediate assembli

225 )H NMR spectroscopic monitoring was used for structural characterization of the intermediates and pro

226 A detailed structural characterization of the involved carbohydrate

227 inal helical zinc-binding domain and provide structural characterization of the linked JmjN-JmjC doma

228 the first, to our knowledge, high-resolution structural characterization of the major components of t

229 sing an integrative approach, we provide the structural characterization of the major components of t

230 The protocol will open the way to structural characterization of the many glycosylated and

231 To support structural characterization of the many metabolites pres

232 11 of MgsG (i.e., DH11) in vivo, followed by structural characterization of the metabolites accumulat

233 We report the structural characterization of the mu-selective endogeno

234 Both biochemical and structural characterization of the mutants suggested tha

235 In this study, we report biochemical and structural characterization of the mycobacterial N-acety

236 Here we describe the structural characterization of the N-linked glycan modif

237 Structural characterization of the O-linked glycans rele

238 Structural characterization of the PAF-R agonists induce

239 The structural characterization of the pathway along with st

240 The structural characterization of the phage tail after ejec

241 nteractions, these limitations had precluded structural characterization of the PIC.

242 Two-dimensional NMR structural characterization of the polysaccharide, named

243 By completing our structural characterization of the previously unknown N-

244 Structural characterization of the product revealed it t

245 We present to our knowledge the first structural characterization of the proliferating-cell-nu

246 Solution and solid-state structural characterization of the protein in complex wi

247 Despite significant progress in the structural characterization of the quasicrystalline stat

248 Structural characterization of the RAM linker with sedim

249 Here we present NRVS structural characterization of the reactive Fe(IV)=O int

250 present a detailed in vitro biochemical and structural characterization of the S100B-RSK1 interactio

251 Full spectroscopic and structural characterization of the siloxide products is

252 of state 1-stabilizing conditions may enable structural characterization of the state 1 conformation

253 Structural characterization of the Stx2a-ribosome comple

254 Comparative structural characterization of the T. cruzi CYP51 comple

255 We carried out the structural characterization of the three preparations us

256 a crystalline matrix provides a platform for structural characterization of the transient species at

257 Herein, we report the isolation and structural characterization of the trinuclear electron-t

258 Here, we performed biophysical and structural characterization of the TRX1-binding domain o

259 This is based on the structural characterization of the two partner proteins,

260 sent thorough kinetic analyses combined with structural characterization of the VCA0947 SpeG enzyme f

261 Structural characterizations of the cyclic 6- and 12-mem

262 eport systematic high-pressure transport and structural characterizations of the newly discovered sup

263 resonance Raman (rR) spectra now permitting structural characterization of their key Fe-O-O fragment

264 ng to the significant complexity of LOS, the structural characterization of these amphipathic lipids

265 g amyloid fibril formation, facilitating the structural characterization of these assembly intermedia

266 s work not only offers new opportunities for structural characterization of these chemically and indu

267 Structural characterization of these complexes, includin

268 Spectroscopic and structural characterization of these compounds supports

269 The first-time isolation and structural characterization of these elusive molecules d

270 ivo, and here, we report the biochemical and structural characterization of these enzymes.

271 Despite their potential, structural characterization of these glycan epitopes rem

272 NMR structural characterization of these metabolites identif

273 Biochemical and structural characterization of these mutants along with

274 isted in the public database, and therefore, structural characterization of these proteins has played

275 However, due to their ephemeral nature, structural characterization of these species remains cha

276 In the absence of structural characterization of these species, methodolog

277 Structural characterization of these surfaces is perform

278 Extensive biochemical and structural characterization of these transcription facto

279 For the structural characterization of these transmetalation int

280 The covalent protein-ligand linkage enabled structural characterization of these trapped, off-pathwa

281 DNA packaging for the Dependoparvovirus The structural characterization of these viruses provides a

282 we review key findings in the functional and structural characterizations of these channels and highl

283 m-phage dynamics are genetic, molecular, and structural characterizations of these groups of phages.

284 systematic mutagenesis and spectroscopic and structural characterization of this histidine and surrou

285 trimers in state 1, potentially facilitating structural characterization of this unknown conformation

286 Here we report the synthesis, isolation, and structural characterization of three cadmium selenide QD

287 ygenated diterpenoids, which in turn enabled structural characterization of three novel compounds pro

288 Here we report biochemical and structural characterization of TnmH from the tiancimycin

289 yze misfolded proteins and peptides, but the structural characterization of transiently formed misfol

290 Functional and structural characterizations of TRPV1 shed light on vani

291 Here we present a functional and structural characterization of two closely related AA9-f

292 tudy reports on the detailed biochemical and structural characterization of two of these.

293 Here, we present a functional and structural characterization of two proteins of viral rho

294 The analysis also led to the structural characterization of two reactive precolibacti

295 monstrate the high-resolution separation and structural characterization of underivatized neutral and

296 In addition, we also report the structural characterization of vDHBPS in its apo form an

297 Thus, the kinetic and structural characterization of vDHBPS reveals the molecu

298 his work we performed a detailed kinetic and structural characterization of Vibrio cholerae WT ApbE a

299 Here we report structural characterization of wild-type and R882H-mutat

300 us expression and subsequent biochemical and structural characterization of ZgLamAGH16 from Zobellia