ライフサイエンスコーパス: annealing

1 by 400 keV He(+) (simulating alpha-particle annealing).

2 state-of-the-art implementations of quantum annealing.

3 usly takes an eccentric configuration during annealing.

4 and electronic-structure disorder by thermal annealing.

5 ess potent than Ded1p in facilitating strand annealing.

6 t variably inhibit Taq polymerase and primer annealing.

7 on constant and the time constant of dynamic annealing.

8 d by dehydrogenation reactions using thermal annealing.

9 e of both TMD films that is recoverable with annealing.

10 ents corresponding to stepwise unwinding and annealing.

11 ed by a solvothermal reaction and subsequent annealing.

12 e edges through two pyrrole rings by thermal annealing.

13 ncreased granule organisation like following annealing.

14 ientation "ribbon" structure through thermal annealing.

15 hysical resource for optimization in quantum annealing.

16 basal plane, and cannot be removed by local annealing.

17 complicated processes of doping and thermal annealing.

18 important implications for post-irradiation annealing.

19 instances and compare with that of simulated annealing.

20 off-axis sputtering followed by post-growth annealing.

21 wed by high pressure or cyclic high-pressure annealing.

22 through NCp7-induced annealing or by thermal annealing.

23 te to a preferred orientation during thermal annealing.

24 cleotide to temporally control Hfq catalyzed annealing.

25 temperature (Tg) and ambient pressure sub-Tg annealing.

26 tions and, therefore, a platform for quantum annealing.

27 the basic Sm core residues necessary for RNA annealing.

28 eterostructured nanoparticle through thermal annealing.

29 previously subjected to high-pressure sub-Tg annealing.

30 es during subsequent ambient pressure sub-Tg annealing.

31 ed via metal-ligand coordination and thermal annealing.

32 amorphous but can be readily crystallized by annealing.

33 optimizing an energy function via simulated annealing.

34 ene conversion by synthesis-dependent strand annealing.

35 th a 6.8 at% nitrogen content is prepared by annealing a freeze-dried graphene oxide foam in ammonia.

36 It is also found to be sensitive to thermal annealing, a result that we attribute to the influence o

37 The film demonstrated high resistance to annealing above 850 degrees C without degradation of its

38 Interestingly, after annealing above Tg, memory of the interstitial spaces be

39 rsionally constrained DNA to investigate the annealing action of HARP on a physiologically relevant s

40 The results show that RNA annealing activity increases with the number of arginine

41 double-stranded RNA circle, and this strand-annealing activity is enhanced by TDRD3.

42 The RNA binding and RNA annealing activity of Hfq from Escherichia coli, Pseudom

43 1 by suppressing the affinity, dynamics, and annealing activity of LAF-1, suggesting that ATP may pro

44 ing a fluorescence-quenching assay for ssDNA annealing activity of RAD52.

45 dynamic LAF-1-RNA interaction stimulates RNA annealing activity.

46 ite being a helicase, TWINKLE has unique DNA annealing activity.

47 cases," their activities also include duplex annealing, adenosine triphosphate (ATP)-dependent RNA bi

48 on by NCp7 in its biochemical function as an annealing agent and for the detailed structural change f

49 condensates for the realisation of a quantum annealing algorithm in presently experimentally accessib

50 n is searched based on a developed simulated annealing algorithm.

51 Solvent vapor annealing allows deterministic growth of P3HT aggregates

52 Post-annealing alpha-Fe2O3 in a reducing atmosphere leads to

53 ction ( 95%) brookite thin films prepared by annealing amorphous titania precursor films deposited by

54 present the application of radiative thermal annealing, an easily scalable processing method for synt

55 apply toxic acids and high energy-consuming annealing, an interconnected silicon network is directly

56 ts large-scale numerical simulations of zone annealing and chemo-epitaxy processing of BCP films to a

57 er can be further improved by combining zone annealing and chemo-epitaxy techniques.

58 A in the presence of rHSA facilitated duplex annealing and consequent interaction that allowed in viv

59 We report multiple annealing and dC-tailing-based quantitative single-cell

60 e recognition and polar induction, and (iii) annealing and dehydration, followed by site-selective re

61 in air allows NaCl to form directly without annealing and displaces the corresponding metal and sulf

62 In vitro, RAD52 has ssDNA annealing and DNA strand exchange activities.

63 This is achieved by optically sensing the annealing and melting of mirror-image l-DNA analogs of t

64 first G3T monomer is rate-limiting for both annealing and melting processes.

65 , and a suppression of non-homologous primer annealing and nonspecific amplification.

66 n contents and conditions that impact primer annealing and product melting and eliminates the require

67 ing conditions required for effective primer annealing and product melting during each cycle without

68 s during each cycle of amplification, primer annealing and product melting.

69 y means of molecular dynamics simulations of annealing and quenching.

70 mation, and so are complicated by post-shock annealing and reverberations.

71 ated PGE utilizes synthesis-dependent strand annealing and single-stranded DNA incorporation pathways

72 in both extended synthesis-dependent strand annealing and slow crossover events of DSB repair during

73 Enhancement of the electron relay by annealing and suppression of undesirable reactions throu

74 east two consecutive rounds of microhomology annealing and synthesis across the break site.

75 is coarsening process is assisted by thermal annealing and the slow evaporation of 1,8-diiodooctane,

76 ct of compression is countered by subsequent annealing and vice versa.

77 glas, improved crystallinity of PZT by laser annealing, and optimum volume of crystalline PZT are fou

78 n hydrothermal modifications, but native and annealing (ANN) modified starches showed the most crysta

79 ing rate, P3HT molecular weight, and thermal annealing are investigated extensively, resulting in tre

80 ed a decrease in DNA binding, unwinding, and annealing, as expected for a functional RQC domain.

81 dinate temperatures, could be achieved after annealing at 1000 degrees C.

82 heet colloidal solutions, followed by vacuum annealing at 200 degrees C.

83 at 0.9 VRHE) was reproducibly observed upon annealing at 300 degrees C.

84 Following annealing at 348 K, water molecules became highly ordere

85 After annealing at 350 degrees C, the crystalized TiO2 enhance

86 After annealing at 350 degrees C, the surface-area corrected c

87 After multi-pass rolling and intermittent annealing at 550 degrees C for 300 s, the obtained UFG-1

88 he same yield under conventional atmospheric annealing at 60 degrees C.

89 On annealing at 600 degrees C for 300 s, the average size o

90 r nitrate and uric acid, followed by thermal annealing at 900 degrees C for 1h.

91 crystalline to crystalline structures during annealing at different temperatures.

92 Upon annealing at higher temperatures (>10 K), the triplet is

93 Thermal annealing at modest temperatures (e.g., 50-100 degrees C

94 Annealing at the glass transition temperature at ambient

95 bility of the white light is preserved after annealing at the lowest temperature (1000 degrees C), bu

96 .47As substrate by comparing the forming gas annealing (at atmospheric pressure with a H2 partial pre

97 how that the resulting quantum and classical annealing-based classifier systems perform comparably to

98 However, in contrast to these methods, the annealing-based classifiers are simple functions of dire

99 e major result of this paper is that quantum annealing benefits more than simulated annealing from th

100 repair, including synthesis-dependent strand annealing, break-induced replication, and meiotic recomb

101 We find that annealing, but not U6 RNA binding, is highly dependent o

102 approach their ambient condition values upon annealing, but the difference in relaxation time of dens

103 DdrB promotes high-fidelity annealing by constraining specific bases from unauthoriz

104 At the time, the implications of DNA annealing by TWINKLE were unclear.

105 -ray scattering data in rigid-body simulated annealing calculations provides a powerful approach for

106 at the effects of hot compression and sub-Tg annealing can be combined to access a "forbidden glass"

107 emperature, depending on the low-temperature annealing condition.

108 erovskite film treated under optimum thermal annealing conditions exhibits a significantly enhanced l

109 entration, carrier density, temperature, and annealing conditions.

110 by varying the BV dopant concentrations and annealing conditions.

111 on niche where potential benefits of quantum annealing could be objectively assessed.

112 achlup action using the conformational space annealing (CSA) method.

113 y of the pristine gap is achieved by thermal annealing, demonstrating that reversible band engineerin

114 polymorph phases, found in films produced by annealing directly after synthesis without any exposure

115 ise that could be misinterpreted as flow and annealing discontinuous vessel segments seem to be major

116 The covalently coupled product is formed by annealing each surface, leading to the removal of Ag ato

117 scades, results in a decrease in the dynamic annealing efficiency and an increase in both the amorphi

118 ad range of inherent states, suggesting that annealing embrittlement is controlled almost solely by a

119 This annealing embrittlement sensitivity is shown to vary sub

120 This sensitivity gives rise to "annealing embrittlement," which is often severe and in m

121 nfolding activity of RHAU leads to efficient annealing exclusively within the same DNA molecule.

122 late (PFMA) core via a fragmentation-thermal annealing (F-TA) process, resembling the "self-seeding"

123 addressed the contribution of single-strand annealing factors HR Rad52 and translesion DNA polymeras

124 Here, we use mechanical milling and annealing followed by compression in diamond anvil cell

125 cells by their bursting behavior (Simulated Annealing for Bursty Expression Clustering, SABEC) and a

126 However, systematic annealing for different time periods at 350 degrees C on

127 in order to test the performance of quantum annealing for random instances and compare with that of

128 antum annealing benefits more than simulated annealing from this gap expansion process, both in terms

129 Herein, we report that TWINKLE uses DNA annealing function to actively catalyze strand-exchange

130 /FTIR investigations suggested that balanced annealing generates an optimal degree of Pt surface enri

131 nduction (GLC), while after high-temperature annealing, GLC becomes insignificant and trap-limited co

132 the SDA by using a combination of simulated annealing (global optimization) and Rietveld refinement.

133 l pressure of 0.04 bar) and H2 high-pressure annealing (H2-HPA at 30 bar) methods.

134 ated from films formed via radiative thermal annealing have equivalent efficiencies to those annealed

135 es via a mechanism we call Inter-Fork Strand Annealing (IFSA) that depends on the recombination prote

136 While annealing improves local chemical and electronic uniform

137 While annealing improves Neel-ordering temperature in BaFe2As2

138 ovel pulsed-ion-beam method to study dynamic annealing in 4H-SiC ion-bombarded in the temperature ran

139 ndividual Pt3Co nanoparticles during in situ annealing in a scanning transmission electron microscope

140 y optimization problems is quantum adiabatic annealing in a transverse magnetic field.

141 tion of N-decorated and surface defects when annealing in N2 atmosphere.

142 oherent Ising machine outperformed simulated annealing in terms of accuracy and computation time for

143 to a semiconducting state is accomplished by annealing in vacuum at 400 degrees C.

144 We investigated the mechanism of U4/U6 annealing in vitro using an assay that enables visualiza

145 ate glass at 1 GPa at Tg, followed by sub-Tg annealing in-situ at 1 GPa.

146 rfect crystals within deformed metals during annealing, in particular how and where volumes with near

147 ains and even 2D ribbons, and how doping and annealing influences formation of 2D order.

148 hemical data reveal a mechanism for accurate annealing involving DdrB-mediated proofreading of strand

149 reported that inverse planning by simulated annealing (IPSA) can improve the quality of brachytherap

150 Simulated annealing is a powerful stochastic search algorithm for

151 Quantum annealing is a proposed combinatorial optimization techn

152 all mobility enhancement by high-temperature annealing is determined by TLC.

153 Although synthesis-dependent strand annealing is preferentially utilized, our work unequivoc

154 croplate field-effect transistors by thermal annealing is reported.

155 d the problems associated with inter-adaptor annealing/ligation.

156 solution (x = 0 to 1) is formed by thermally annealing mixtures of MoS2 and red phosphorus.

157 The ring-coalescence and annealing model for the formation of C(60) involves a [2

158 magnesium alloy and can even increase during annealing motivates atomic-level study of dislocation st

159 new search algorithm called SANA (Simulated Annealing Network Aligner) and apply it to protein-prote

160 Thus, alpha-particle induced annealing occurs and must be considered in models of alp

161 oto-thermally heated by scanning laser spike annealing of an absorbing layer, then melted and cooled

162 stranded nucleic acid structures formed upon annealing of an RNA strand to one strand of duplex DNA.

163 we show that oligoarginine peptides slow the annealing of complementary oligoribonucleotides by up to

164 ssDNAs >50-nucletides long and promotes the annealing of complementary ssDNA to generate highly bran

165 Alt-EJ frequently uses annealing of microhomologous sequences to tether broken

166 The PBMO anode is fabricated by in situ annealing of Pr0.5Ba0.5MnO3-delta in fuel conditions and

167 Further annealing of ScOOH generates cubic Sc2 O3 with morpholog

168 tation frequencies, deletion lengths and the annealing of short regions of microhomology (2-6 bp) acr

169 microhomology-mediated end-joining requires annealing of single-strand DNA ends, we addressed the co

170 lyacrylamide gel electrophoresis) to prevent annealing of sRNAs to their complement.

171 High-temperature annealing of the films is shown to produce crystalline f

172 ptation utilizing liquid rubidium and vacuum annealing of the mixed elemental reagents in fused silic

173 The annealing of the scaffold to form functional RNAs is int

174 e-beam evaporation of Ni and the subsequent annealing of the ZnO/Ni core/shell nanostructures.

175 ial system, we studied the effect of thermal annealing on a 15 nm thick NbO2 thin film sandwiched ins

176 act of H2 pressure during post-metallization annealing on the chemical composition of a HfO2/Al2O3 ga

177 acture of experimental prototypes of quantum annealing optimizers with sizes approaching the practica

178 ation was caused either through NCp7-induced annealing or by thermal annealing.

179 Ostwald ripening is not activated by thermal annealing or heating in O2 alone.

180 cies of 9.1% without the need for additives, annealing, or additional extraction layers during device

181 omogeneous "half adaptor" (HA), generated by annealing P oligo (carrying a phosphate group at the 5'

182 ation reactions are finely controlled by the annealing parameters, which govern the onset of successi

183 Here we use quantum and classical annealing (probabilistic techniques for approximating th

184 We observed that technical details in the annealing procedures can induce non-negligible local cha

185 A high-speed incandescent tension annealing process (ITAP) is used to increase the modulus

186 into PtNi alloy nanowires through a thermal annealing process and then transformed into jagged Pt na

187 eveal a major change in the dominant dynamic annealing process at a critical transition temperature o

188 ompletely removed from the film by a thermal annealing process at temperatures </=100 degrees C and t

189 e (4 inch in diameter) using a rapid thermal annealing process facilitated by a nickel, Ni thin film

190 ture of the quantum fluctuations driving the annealing process has a decisive effect on the final dis

191 functional thin films and layers and a post-annealing process in vacuum in order to remove the organ

192 tially form the heterotrimer, and a rational annealing process led to the desired oligomer.

193 After a vacuum annealing process, a high gain in exceeding 10(7) has be

194 e same features before and after the thermal annealing process, demonstrating that the charge transpo

195 rface of Li3V2(PO4)3 microspheres during the annealing process.

196 an ion implantation step and a two-step post-annealing process.

197 crystallization of Nd2Ir2O7 during the post-annealing process.

198 electrospinning and a subsequent controlled annealing process.

199 The two dominant dynamic annealing processes have an order of magnitude different

200 lating stoquastic and non-stoquastic quantum annealing processes, and experimentally, using a prototy

201 The dominant dynamic annealing processes, however, remain unknown even for cr

202 temperature is dominated by complex dynamic annealing processes, involving migration and interaction

203 ne solids often proceeds via complex dynamic annealing processes, involving migration and interaction

204 experimentally, using a prototypical quantum annealing processor, the ability of quantum annealers to

205 ort the crystal structure of a single-strand annealing protein [DdrB (DNA damage response B)] in comp

206 DNA-single strand annealing proteins (SSAPs) are recombinases frequently e

207 is validated and optimized using a simulated annealing protocol to generate potential energy vs. RMSD

208 ejects new position according to a simulated annealing protocol, which effectively removes atomic cla

209 ess heating and increase fidelity of quantum annealing protocols in complex many-particle systems.

210 ciple allows one to realize arbitrarily fast annealing protocols or implement fast dissipationless dr

211 gation of an Nd2Ir2O7 film with a short post-annealing provides insight into the mechanism for crysta

212 Quantum annealing (QA) serves as a specialized optimizer that is

213 and interstitial diffusion, with the dynamic annealing rate limited by the migration and interaction

214 The dynamic annealing rate shows an Arrhenius dependence with two we

215 t stabilize the U6 'telestem' helix increase annealing rates by up to 15-fold, suggesting that telest

216 ge involves active coupling of unwinding and annealing reactions by the TWINKLE.

217 and break-induced synthesis-dependent strand annealing reactions.

218 s transition from the thermal to the quantum annealing regime.

219 f molecules on each surface before and after annealing reveal that on Ag(111), structures rearrange b

220 s (FETs) is described, through rapid thermal annealing (RTA) under a controlled O2 environment (p-typ

221 tallic PGex contacts formed by rapid thermal annealing (RTA).

222 have a theoretical advantage over simulated annealing (SA) via quantum tunneling.

223 ained molecular dynamics (MD) with simulated annealing (SA).

224 Synthesis-dependent strand annealing (SDSA) is the preferred mode of homologous rec

225 reak (DSB) by the synthesis-dependent strand-annealing (SDSA) pathway.

226 th conditions reveal signatures of simulated annealing searches.

227 pite the theoretical lack of single-stranded annealing sites.

228 ce state changes following demagnetizing and annealing, specific vertex motifs retain low-energy conf

229 However, the demonstration of quantum annealing speedups remains to this day an elusive albeit

230 pair toward highly deleterious single-strand annealing (SSA) and end-joining processes that led to th

231 ls and inhibit RAD52-dependent single-strand annealing (SSA) in human cells.

232 Single-strand annealing (SSA) is a DNA double-strand break (DSB) repai

233 iophage lambda that promotes a single strand annealing (SSA) reaction to generate end-to-end concatem

234 ologous recombination (HR) and single strand annealing (SSA), and in conferring resistance to cisplat

235 interdiffusion" protocol is demonstrated by annealing stacked layers of aqueous solution deposited f

236 The addition of an annealing step close to the Ge-Sn eutectic temperature (

237 A key annealing step was necessary to perfect the isoalloxazin

238 ime, by combining bandgap tuning with an air-annealing step, a CBTSSe-based PV device with 5.2% PCE (

239 hat somehow integrates the end resection and annealing steps of the reaction.

240 vities of TWINKLE: strand-separation, strand-annealing, strand-exchange and branch migration suggest

241 on solids by a simple yet efficient thermal annealing strategy.

242 hnology in Saccharomyces cerevisiae based on annealing synthetic oligonucleotides at the lagging stra

243 X-ray diffraction using a radiative thermal annealing system with device performances, we mapped the

244 ent a robust fundamental correlation between annealing temperature and catalytic activity, where a ap

245 heterojunctions, or alloys depending on the annealing temperature and composition.

246 found that, the growth rate scales with the annealing temperature and the graphene height is proport

247 his quantitatively shows that an increase in annealing temperature leads to a reduction in copper vac

248 the resulting GNRs can be controlled by the annealing temperature, providing GNR films with optical

249 More interestingly, with the increase of annealing temperature, the crystallinity of the Ni shell

250 At a higher annealing temperature, the quasi-1D chain structure tran

251 he qPCR conditions, primer concentration and annealing temperature, were optimized.

252 erage length of the cylinders increases with annealing temperature, with a narrow length distribution

253 structure can be easily controlled by tuning annealing temperature.

254 erials, which was more prominent at elevated annealing temperature.

255 continuously decreased with the increase of annealing temperature.

256 ntentionally introduced, where after thermal annealing the vacancies can annihilate through a number

257 ment or grinding homogeneously in air before annealing, the barrier to product formation, and therefo

258 Finally, on annealing, the formal C-X insertion product of DPC is ob

259 o-like conversion process during the thermal annealing, the hole-injection-assisted reactions happen

260 Unlike strand-annealing, the strand-exchange reaction requires nucleot

261 Besides high folding yield on slow annealing, this design also folds rapidly on temperature

262 ance space suggests the commonly used FAPbI3 annealing time, 10 min at 170 degrees C, can be signific

263 obtained from films with variable thickness, annealing time, and morphology (cylindrical blocks vs sp

264 d the graphene height is proportional to the annealing time.

265 ructures in a single sample, even after long annealing times (3 months), validate the occurrence of t

266 al plane adsorption is only relevant at long annealing times and at small undercooling.

267 gle-stranded DNA (ssDNA) and facilitates its annealing to duplex DNA.

268 overcome this challenge, we used end-to-end annealing to generate defects that are directly observab

269 noncoding RNAs (sRNAs) and facilitates their annealing to mRNA targets involved in stress tolerance a

270 ), utilizing solution-processing and thermal annealing to produce a thin film that achieves a figure

271 We exploit photothermal annealing to rapidly order and align block copolymer pha

272 pon water adsorption at 105 K and subsequent annealing to room temperature.

273 Here we consider using quantum annealing to solve Set Cover with Pairs (SCP), an NP-har

274 us can be harnessed during crystal growth or annealing to suppress defect populations.

275 ture treatment (HMT) and to 19.5-26.9% after annealing treatment (ANN).

276 9 MPa after a super high temperature thermal annealing treatment at 2800 degrees C.

277 S QD ink without requiring a post-deposition annealing treatment for solvent removal.

278 er deposition (ALD) of TiO2 followed by post-annealing treatment on spinel LiNi0.5 Mn1.5 O4 (LNMO) ca

279 mework as the precursor for high-temperature annealing treatment.

280 rothermal reaction method combined with post-annealing treatment.

281 shell via Ostwald ripening during the oxygen annealing treatment.

282 Various annealing treatments are used to produce different oxyge

283 The heat-moisture and annealing treatments significantly reduced glycemic inde

284 a on RNA metabolism, we designed an assay by annealing two single-stranded RNA circles with complemen

285 le-light nanocatalysts using both doping and annealing under anoxic ambient.

286 ls achieve accurate, protein-assisted strand annealing under biological conditions that would otherwi

287 -H activation occurs on Au(111) upon thermal annealing under ultrahigh vacuum (UHV) conditions.

288 Following successive thermal annealing up to 1000 degrees C, microstructural analysis

289 es of eta-helices were obtained by simulated annealing using NOE-derived distance restraints, and the

290 ineffective chlorides, or indeed simple air annealing, voltage improvement is linked directly to chl

291 cedure involving seed layers, layer-by-layer annealing was adopted to reduce the substrate-induced st

292 RS3 yield of 41.3% was obtained when annealing was carried out at 400MPa/60 degrees C for 15

293 ction of the triplet with water molecules by annealing water-doped matrices at 25 K.

294 During annealing, we observe the formation of a stable ternary

295 How cells achieve accurate annealing when large regions of single-strand DNA are un

296 n of Ag atoms into larger clusters following annealing which hinders diffusion of Ti and O ions for a

297 energy barrier height after high-temperature annealing, which is considered to be the cause of the si

298 re a characteristic time constant of dynamic annealing, which rapidly decreases from 8 to 0.3 ms wit

299 We use thermal annealing with and without 'learning' to explore typical

300 nificant ongoing effort in realizing quantum annealing with different physical platforms.