ライフサイエンスコーパス: condense

1 ave retained the conditions under which they condensed.

2 idative elimination was used to successfully condense 0D BP(2)(3-) anionic monomers found in a Na(3)B

3 ia-bis(calix)-sapphyrins were synthesized by condensing 1 equiv of dibenzofuran/dibenzothiophene-base

4 preserving network reduction, resulting in a condensed 49 node and 113 edge stomatal closure network

5 ule cargoes with aggregating properties, the condensing activity of ICA512 RESP18HD is displayed at a

6 By condensing alpha-3 degrees primary amines with electron-

7 A catalyst that condenses amino acids could have an important impact by

8 Upon phage infection, the host nucleoid condensed and became toroidal, similar to the bacterial

9 of extracellular material into a pattern of condensed and fluid-like phases induces undulations in t

10 Thirty years ago, the existence of a condensed and inactive LPL oligomer was proposed.

11 n a HUalpha(triKA) mutant results in an over-condensed and mis-segregated nucleoid.

12 to constrain the conditions under which they condensed and the information they bear on the structure

13 e distinct via the linear, zigzag, and ortho-condensed arrangements of fused benzene rings-is reveale

14 erconductivity in which pairing fluctuations condense at a separate phase transition and form a nemat

15 (bound electron-hole pairs) are expected to condense at considerably higher temperatures(2-7).

16 rough which water vapor (i) adsorbs and (ii) condenses at mineral surfaces coated with Leonardite hum

17 scopy study reveals an intermediate state of condensed atomic clusters during Pd and Au crystallizati

18 Many subcellular condensed bodies are hierarchically organized into multi

19 Attachment of TADs to the NL makes them more condensed but decreases the overall chromatin density in

20 Eukaryotic chromatin is highly condensed but dynamically accessible to regulation and o

21 ivo that small nanocomplexes composed of DNA condensed by a blend of biodegradable polymer, poly(beta

22 t positively charged, unmodified Tau that is condensed by cytosolic polyanions but negatively charged

23 viewpoint is that positively charged Tau is condensed by cytosolic polyanions.

24 ely charged, hyperphosphorylated Tau that is condensed by cytosolic polycations.

25 ation occurs in the context of large genomes condensed by histone proteins into chromatin.

26 sity of negative charges on its surface, DNA condenses cations as counterions, forming the so-called

27 g DNA mobility in living cells, we show that condensed chromatin also exhibits solid-like behavior in

28 This triggered condensed chromatin at the synaptic activity response el

29 or Tn5 allows its access to relatively more condensed chromatin domains.

30 Our results reveal that condensed chromatin exists in a solid-like state whose p

31 his study, we examined the physical state of condensed chromatin in vitro and in vivo.

32 Because condensed chromatin often correlates with transcriptiona

33 However, the propagation of twist in condensed chromatin remains yet unresolved.

34 ssue of Cell, Strickfaden et al. reveal that condensed chromatin shows a solid-like behavior at mesos

35 one H3 lysine 9 trimethylation (H3K9me3) and condensed chromatin ultrastructure.

36 f the hallmarks of quiescent cells is highly condensed chromatin.

37 hat this loss was due in part to permanently condensed chromosomes and repeat-rich sequences in Symbi

38 act in both mice and worms and colocalize on condensed chromosomes during mitosis in C. elegans embry

39 re is located at the primary constriction of condensed chromosomes where it acts as a platform regula

40 ox promoters, and a manifest cell cycle with condensed chromosomes.

41 xial chromosomal positions (vermicelli), and condenses chromosomes.

42 ones were later recognized for their role in condensing chromosomes.

43 topology of the myeloid genome toward a more condensed configuration in APL cells; locally, it intrud

44 olutionarily conserved, promoting the thinly condensed constrictions that occur at centromeres and RD

45 Time-condensed continuous-infusion reinduction followed by st

46 leoids by promoting the formation of a dense condensed core surrounded by less condensed isolated dom

47 ayed a markedly reduced granular layer and a condensed cornified layer.

48 ), remodeling ECM fiber network structure by condensing, degrading, and aligning these fibers.

49 the capacity of H-NS to form multimers that condense DNA and restrict gene expression.

50 Protamine proteins dramatically condense DNA in sperm to almost crystalline packing leve

51 mobility to evaluate the size of spermidine-condensed DNA and single molecule burst analysis to eval

52 , cryo-EM reveals a range of partially full, condensed DNA densities that appear to have no contact w

53 ing via an intermediate 'half-up' state to a condensed 'down' state.

54 The condensed droplets in the valley are then evaporated due

55 these polymers on their organization inside condensed droplets.

56 oiety of the phosphocholine headgroups had a condensing effect on our model bilayer.

57 del uptake from cosmetics as a surrogate for condensed environmental media.

58 hery of an intact nucleus revealed partially condensed, extended structures in interphase chromatin.

59 se findings point to ICA512 RESP18HD being a condensing factor for protein sorting and granulogenesis

60 dered region (IDR), which in vitro acts as a condensing factor for the reversible aggregation of insu

61 the least compact sub-states of chromatin de-condense first, followed by de-condensation of more comp

62 trachromosomal interactions that represent a condensed form akin to that of mitotic chromosomes.

63 lable techniques to represent read data is a condensed form as an assembly graph.

64 Heterochromatin is a highly condensed form of chromatin that silences gene transcrip

65 ution of RNA molecules between dispersed and condensed forms.

66 The route proceeds by condensing fragments of reversed polarity relative to co

67 ormic acid solutions (up to nearly 100 wt.%) condensed from generated vapors via flexible tuning of t

68 e high electron-drawing ability/power of the condensed furoxan ring and the low aromatic character of

69 xpression changes, we observed shortened and condensed gene expression patterns in mouse pluripotent

70 ovides a mechanism for explaining how people condense general physical knowledge into actionable, tas

71 analysis to evaluate DNA packing within the condensed globules relative to free-coiled DNA.

72 and allows users to export the structure as condensed GlycoCT.

73 diments during passage through open (eu) and condensed (hetero) chromatin.

74 The formation of silenced and condensed heterochromatin foci involves enrichment of he

75 nt for the establishment of large domains of condensed heterochromatin.

76 These methods create macrocycles and embed condensed heterocycles to diversify outcomes and improve

77 lectron transport is simulated in a class II condensed history scheme, i.e., catastrophic inelastic s

78 rs travel in an inert gas stream before they condense in a cooled collector.

79 These grains condensed in outflows of asymptotic giant branch stars <

80 iors from random-sequence genomic DNA, AA-TT condenses in all alkaline earth metal ions.

81 ternational Union of Pure & Applied Chemist)-condensed inputs to render Symbol Nomenclature For Glyca

82 spin integer particles that are predicted to condense into a coherent quantum state at sufficiently l

83 astically increase ribozymatic activity, (3) condense into hydrogels, (4) form pure crystals and (5)

84 terphase and these string-shaped nuclei then condense into multiple round nuclei when the host divide

85 lize to specific regions of the cell and can condense into non-membrane-bound structures such as stre

86 Some of these oxidation products then condense into the particle phase.

87 stributed in a broadband of frequencies gets condensed into a dominant mode, analogous to a condensat

88 IV-1 genomic RNA, nucleocapsid and integrase condensed into a mature ribonucleoprotein complex.

89 nic combination of carbon-group elements-was condensed into a porous, polycubane structure (BP-COF-1)

90 Taken together, this suggests that LPL is condensed into its inactive helical form for storage in

91 mputer-generated MRI features of tumors were condensed into seven MRI factors related to tumor size,

92 propose that during nuclear reassembly LEM2 condenses into a liquid-like phase and coassembles with

93 nd P. aeruginosa were killed by a process of condensing intracellular contents.

94 of a dense condensed core surrounded by less condensed isolated domains.

95 somal peptide synthetase condensation domain condenses it with (1S,3R,4S)-3,4-dihydroxycyclohexane ca

96 osits formed by electron irradiation of thin condensed layers of (eta(3)-C(3)H(5))Ru(CO)(3)Cl.

97 dily cyclize into lactams, while Dab and Dpr condense less efficiently.

98 NIRs selectively extract cargo from condensed liquid phases thereby regulating functional ph

99 s molecules between dilute liquid phases and condensed liquid phases.

100 trate that the molecular connectivity of the condensed-liquid network-i.e., the number of weak attrac

101 he motion, the condensate cloud harvests non-condensed magnons, which results in a partial compensati

102 y of higher-order chromatin structure from a condensed maternal and a naive paternal genome to genera

103 pling leads to the confinement of spinons, a condensed matter analog of quark confinement in quantum

104 iverse, plays a key role in the chemistry of condensed matter and biological systems.

105 he quantum emulation of important systems in condensed matter and nuclear physics, as well as the stu

106 hydrogen (LMH) is the most abundant form of condensed matter in our solar planetary structure.

107 rize this short-lived species in between two condensed matter layers.

108 als offer a promising platform for exploring condensed matter phenomena and developing technological

109 on interactions play a critical role in many condensed matter phenomena, and it is tempting to find a

110 problems in materials science, nanoscience, condensed matter physics and chemistry, such as phase tr

111 remains one of the most studied phenomena in condensed matter physics and is relevant for research ar

112 irac fermions have created much attention in condensed matter physics and materials science.

113 teractions on spin transport is important in condensed matter physics and spintronics.

114 any fields, including biology, chemistry and condensed matter physics as well as semiconductor indust

115 oncept of topology(3) has been expanded from condensed matter physics into photonics(4), giving rise

116 nductivity has been a long-standing quest in condensed matter physics since the discovery of superflu

117 ransitions remains an important objective in condensed matter physics(4,5).

118 In condensed matter physics, a crystalline electronic syste

119 t the intersection of solid-state chemistry, condensed matter physics, and materials science and engi

120 Topology has recently become a focus in condensed matter physics, arising in the context of the

121 Currently under active study in condensed matter physics, both theoretically and experim

122 d truly transdisciplinary topic encompassing condensed matter physics, solid state chemistry, and mat

123 ins as one of the most challenging issues in condensed matter physics.

124 systems has given topology a central role in condensed matter physics.

125 )) superconductivity is a central problem in condensed matter physics.

126 s to biology, magneto- and hydrodynamics and condensed matter physics.

127 to low T have been a long-standing puzzle in condensed matter physics.

128 sordered systems is a fundamental problem of condensed matter physics.

129 rol them is one of the biggest challenges of condensed matter physics.

130 ition is one of the few unsolved problems in condensed matter physics: agreement on the cause of the

131 l electronic systems has opened a new age in condensed matter research.

132 challenges and opportunities, materials and condensed matter sciences are beneficiaries.

133 nsights into the fundamental interactions in condensed matter systems and present opportunities for i

134 abilities of probing ultra-fast phenomena in condensed matter systems at X-ray free electron laser (F

135 ory of lattice dynamics valid for disordered condensed matter systems with the Frenkel theory of the

136 electronic correlations occur frequently in condensed matter systems, and are associated with remark

137 or axions in strongly correlated topological condensed matter systems, which have so far been elusive

138 h as efficient energy transfer in disordered condensed matter systems.

139 n is challenging in fluid mechanics and soft condensed matter systems.

140 lications and as a testing bed for different condensed matter theories.

141 erface has analogues in systems ranging from condensed matter to cosmology and string theory.

142 nteractions are ubiquitous in biology(1) and condensed matter(2-4), but they are often screened by co

143 esentative examples drawn from materials and condensed matter, including the important role of elasti

144 In the physics of condensed matter, quantum critical phenomena and unconve

145 or discovering emergent quantum phenomena in condensed matter.

146 yond, as well as the demonstration of HHG in condensed matter.

147 up new avenues for ultrafast spectroscopy of condensed matter.

148 phenomena of the geometrical frustration in condensed matter.

149 Computing equilibrium states in condensed-matter many-body systems, such as solvated pro

150 iverse magnetic quantization phenomena in 2D condensed-matter materials.

151 yl fermions have attracted great interest in condensed-matter physics and materials science.

152 uctures have been a key point of interest in condensed-matter physics for decades owing to a plethora

153 ana fermions as quasiparticle excitations in condensed-matter physics has created much excitement.

154 ms are fundamental to phenomena ranging from condensed-matter physics to cosmology, yet they are gene

155 In high-energy and condensed-matter physics, particle exchange has an essen

156 their properties is a central goal of modern condensed-matter physics, which holds promise for a new

157 d fundamental bridge between high-energy and condensed-matter physics.

158 to find answers to outstanding questions in condensed-matter physics.

159 ring emergent phenomena and exotic phases in condensed-matter physics.

160 s in biomedicine, biophysics, chemistry, and condensed-matter physics.

161 one of the most perplexing topics in current condensed-matter physics.

162 ately balanced-is of fundamental interest to condensed-matter research(1,2).

163 e-shot equilibrium samples of representative condensed-matter systems and proteins.

164 The recent advent of condensed-matter systems with Dirac-like excitations, su

165 allenge in quantum science across atomic and condensed-matter systems(2,4-7).

166 e liver tissue and analyzed it applying soft-condensed-matter-physics concepts.

167 igm for exploring novel electronic phases of condensed matters and applications in emerging field-con

168 ented opportunities to study Weyl physics in condensed matters.

169 nd nuclear dynamics in atomic, molecular and condensed matters.

170 ent-insoluble membrane fractions enriched in condensed membranes.

171 the formation of the interzone, a region of condensed mesenchymal cells at the site of the prospecti

172 nvironment is known, but it is restricted to condensed metallic phases(8), the hexagonal pores of coo

173 by which soluble proteins self-organize into condensed microdroplets with nanoscale and millisecond s

174 moting lamellar mesophases and, thus, liquid condensed monolayers needs to be maximal while maintaini

175 e observe that the proteinaceous amino acids condense more extensively than these nonproteinaceous am

176 Nicotinamide adenylyl transferase condenses nicotinamide mononucleotide and (tz) ATP to yi

177 onal Glycomics (also known as modified IUPAC-condensed nomenclature).

178 thesis begins with activated ribonucleotides condensing (nonenzymatically) to make RNA molecules, som

179 coil region, leads to increased frequency of condensed nuclei and lower steady-state levels of lamin

180 r4 FKBP with recombinant chromatin complexes condenses nucleosome arrays independently of its catalyt

181 Here we show how the ability of LEM2 to condense on microtubules governs the activation of ESCRT

182 observed in systems as simple as water drops condensed on a transparent substrate.

183 h ice and/or energetic processing of methane condensed on water ice grains in the cold, outer edge of

184 We show the FEC condenses on the surface at open circuit voltage then is

185 Celsius, nitric acid and ammonia vapours can condense onto freshly nucleated particles as small as a

186 / c, Z' = 2) is isolated when the radical is condensed onto a cold substrate (enthalpically favored p

187 So, one can study a sample (in condensed or gaseous state) during a physical or chemica

188 geological fate of hydrothermally-generated condensed organics.

189 This can cause uranium to condense out in oxidation states (e.g., UO(3) vs UO(2))

190 or bioinformatic software that will not only condense output from replicated ADMIXTURE runs, but also

191 We condensed over 120,000 immune features into a single axi

192 plexes compared to polyplexes, which tightly condense pDNA and significantly distort its helicity.

193 ls enhanced interprotein interactions in the condensed phase but more favorable protein-solvent inter

194 ssociated biomolecular mobility within these condensed phase droplets, or condensates, are increasing

195 eal how hydrogen bonding is reflected in the condensed phase electronic structure.

196 tal concentration of all tau variants in the condensed phase is constant.

197 To address these challenges, we present condensed phase membrane introduction mass spectrometry

198 We present condensed phase membrane introduction mass spectrometry

199 ategy addressing this significant impasse is condensed phase membrane introduction mass spectrometry

200 cal/mol, respectively, which are the highest condensed phase MO-H BDFEs to date and (ii) that the hig

201 Our results further illustrate how condensed phase reactions can be predicted using quantum

202 roducing secondary electrons is lower in the condensed phase than in the gas phase.

203 e observe a slow-down in the dynamics of the condensed phase, potentially resulting in loss of functi

204 02, and condensation on the cold side of the condensed phase.

205 much smaller than the cohesive energy in the condensed phase.

206 ation of complex molecular structures in the condensed phase.

207 high reactivity has eluded isolation in the condensed phase.

208 g description as a "free" boryl anion in the condensed phase.

209 ditional secondary structure elements in the condensed phase; rather, it maintains conformational het

210 roduced, with each being based on a distinct condensed-phase approach.

211 echanisms and kinetic parameters for complex condensed-phase chemical processes that underlie importa

212 tmospheric liquid water volume, we show that condensed-phase hydrolysis of 1,2-IHN can account for th

213 regenerates the perfluorocarboxylic acid via condensed-phase hydrolysis.

214 Ultrafast electron transfer in condensed-phase molecular systems is often strongly coup

215 The composition of condensed-phase organic compounds in SOA is measured usi

216 companied by the formation of functionalized condensed-phase products including secondary ozonides (S

217 Previous work examining the condensed-phase products of squalene particle ozonolysis

218 on events, enhanced gas-phase emissions from condensed-phase reservoirs partitioned to airborne parti

219 n-usage was inferred to deposit siloxanes in condensed-phase reservoirs throughout the house, leading

220 ions through interactions with surface-laden condensed-phase reservoirs.

221 ectrostatic charge induction in the proximal condensed-phase sample, resulting in the liberation of f

222 to preserve the key PTM connectivity, which condensed-phase separations failed to achieve.

223 This distinctive condensed-phase system is ideally suited to spectroscopi

224 e thermodynamics, structure, and dynamics of condensed-phase systems, but often present significant c

225 itions between the eigenstates occur-such as condensed-phase systems-must be studied.

226 incomplete, and rules for the coexistence of condensed phases are lacking.

227 polymers and that flexible polymers nucleate condensed phases at lower binding energies than their ri

228 the understanding of structural order within condensed phases of matter.

229 uctures at the interface; these appear to be condensed phases of small ion-extractant complexes.

230 tion, and the thermodynamic stability of the condensed phases surrounding such sites, in turn, implie

231 hromophores such as bacteriochlorophyll a in condensed phases to measure both high-resolution coheren

232 s have been prepared, and their structure in condensed phases unambiguously assigned using (1)H, (13)

233 higher propensity to phase separate and form condensed phases with higher concentrations.

234 cs of individual atoms or small molecules in condensed phases, e.g. lithium ions in electrolytes, wat

235 hese effects have also been observed in less condensed phases, such as self-assembled monolayers; how

236 lular protein from dilute to concentrated or condensed phases.

237 experimental optical spectra of FTPE in both condensed phases.

238 nt has been well-studied in both the gas and condensed phases; however, understanding this process in

239 n Fe(3) P (proxy for mineral schreibersite), condensed phosphates, and reduced oxidation state phosph

240 ate-containing metabolites and two inorganic condensed phosphates.

241 The cognate NeuB enzyme that condenses phosphoenolpyruvate with a hexose into pseudam

242 significantly enhances the stability of the condensed protein droplets, pointing to a previously unr

243 ecently been shown that the major adenovirus condensing protein (polypeptide VII) is dispensable for

244 containing double-stranded DNA (polymer) and condensing proteins (particles).

245 rmal, CCVs were abnormal, appearing dark and condensed rather than clear and spacious.

246 The preserved organics represent condensed remains of the cornified epidermis and, likely

247 3,5- or 2,4,6-positions or expansion of the condensed ring system.

248 ate that CsoS2 acts as an interaction hub to condense Rubisco and enable efficient alpha-carboxysome

249 t-stacking strategy to combine mutations for condensed shoots, rapid flowering (SP5G) and precocious

250 genetic code along the DNA, together with a condensed solution of proteins, RNA, and other molecules

251 the reactive interactions among multiple co-condensing species, yet the underlying mechanisms remain

252 ich round spermatids elongate into chromatin-condensed spermatozoa.

253 e key proteins in vitro, we reveal that RADX condenses ssDNA filaments, even when the ssDNA is coated

254 c and nitro-aromatic will partition into the condensed state for a wide range of ambient conditions i

255 These condensed states are formed by phase separation, yet lit

256 We condense such information onto a "translatability grid"

257 This is a condensed summary of an international multisociety state

258 spatial interactions play important roles in condensing super-enhancer regions into a cohesive transc

259 ingu was prominent regarding anthocyanin and condensed tannin content and superior to the other culti

260 vonoids (1.24-5.15 mg QEg(-1) DW), and total condensed tannins (12-23.2 mg CEg(-1) DW).

261 Plant tannins, including condensed tannins (CTs) and hydrolyzable tannins (HTs),

262 The total phenolics and condensed tannins correlated with the antioxidant capaci

263 rs exposed to drought, while the fiber-bound condensed tannnins increased.

264 This article aims to condense the current knowledge on RV adaptation and fail

265 positively charged proteins, thought to help condense the genome inside the capsid with no evidence.

266 The review, is an effort to condense the recent research on l-Th highlighting its bi

267 We then condense the size, spacing, and intensity information ab

268 Thus, they prove to condense the underlying principles of protein sequences.

269 These results indicate that protein VII condenses the adenovirus genome by combining direct clus

270 pplementing values of the magnetic parameter condenses the fluid velocity and upsurges the thermal an

271 th residues 31-41 near the N-terminus, which condenses the protein.

272 Negative-strand RNA viruses condense their genome into helical nucleocapsids that co

273 erpretation of a large number of GO terms by condensing them into GO clusters representing non-overla

274 engages additional interactive surfaces and condenses these conformational variants into a uniform p

275 Our framework condenses these summary statistics into PRSs using vario

276 l and clinical literature for each compound, condensed this into a database of summary documents and

277 fy chromatin determine which genomic regions condense to form peripheral heterochromatin.

278 The thickness stretch is statically condensed to enforce vessel wall incompressibility via a

279 al CC, was depleted gradually, and CETN1 was condensed to the mid-segment of the CC.

280 se of budding yeast, the ribosomal DNA (RDN) condenses to a thin loop that is distinct from the rest

281 By condensing transcriptional information encoded in large

282 , transcriptionally active state to a highly condensed, transcriptionally inactive state.

283 he source of the PGEs has been attributed to condensed vapor and melt from an extraterrestrial impact

284 e growth predicted from the observed mass of condensing vapors in a forested environment thus represe

285 us illness, what would be important to you?" Condensed versions of the options were, "Live as long as

286 t these reactions are greatly facilitated by condensed water molecules under wet ambient conditions,

287 ed by not only atomizing bulk water but also condensing water vapor, suggesting that spontaneous wate

288 sized in three steps from chalcones and then condense with carbon disulfide to afford 8-azachromones

289 e separation capacity and its capacity to co-condense with transcriptional co-activators.

290 afforded the key intermediate 10, which was condensed with a Boc-protected adenine, followed by depr

291 rst reduced to formate, which is reduced and condensed with a second CO(2) to generate glycine.

292 In this cycle, glyoxylate is condensed with acetyl coenzyme A (acetyl-CoA) to give ma

293 o acetyl-P, and then to acetyl-CoA, which is condensed with another CO(2) to form pyruvate.

294 y, dipyrromethanyl-substituted azaBODIPY was condensed with dipyrromethane dicarbinol or 16-oxatripyr

295 enzoylbenzodipyrrole was reduced to diol and condensed with five different tripyrranes such as aza, o

296 teroaromatic, and alkyl carboxaldehydes were condensed with oxalyl boronates to afford substituted bo

297 ine and the obtained diamines can be further condensed with the diketones with a thiadiazole unit.

298 piratory syndrome coronavirus 2 (SARS-CoV-2) condenses with RNA via liquid-liquid phase separation (L

299 N-protein condenses with specific RNA genomic elements under physi

300 In polydisperse mixtures, smaller particles condense within shrinking capillary bridges to build sta