ライフサイエンスコーパス: chemical change

1 ent provide likely mechanisms for this rapid chemical change.

2 after mixing with water, without undergoing chemical change.

3 leaves the ATPase site without undergoing a chemical change.

4 short-lived intermediates in the course of a chemical change.

5 mosphere, leading to enhanced ionization and chemical changes.

6 dicator of the period of the highest rate of chemical changes.

7 th elastic deformations and sp (2) to sp (3) chemical changes.

8 s, that well related to the observed physico-chemical changes.

9 s associated with environmental physical and chemical changes.

10 t prior to biochemical analysis might induce chemical changes.

11 kely protected nutrients from e-beam-induced chemical changes.

12 dation as a result of complex structural and chemical changes.

13 cessing in a large river and to detect sharp chemical changes across aquatic ecosystem boundaries in

14 ying and comparing different process-induced chemical changes, adding depth to our perspective in ter

15 utations were evaluated for conservation and chemical change and subdivided into strong (mutation str

16 an international effort to identify all the chemical changes and relationships between chromatin con

17 transcriptomic platforms to determine subtle chemical changes and to link metabolites and genes to bi

18 ydroxylated and does not appear to undergo a chemical change, and hydrogen peroxide is produced.

19 These structural and chemical changes are correlated with progressive changes

20 ur calculations show that the structural and chemical changes are driven by the availability of hydro

21 oes developmentally-regulated structural and chemical changes as cells differentiate, which subsequen

22 e approach to determining the age is through chemical changes as cloud contraction occurs, in particu

23 ibility of investigating in depth the subtle chemical changes associated with pathological states.

24 ks also introduced multiple new stresses via chemical changes associated with pH, elemental leaching

25 process explains the novel morphological and chemical changes associated with the typically observed

26 This ability to monitor chemical changes at the molecular level can yield import

27 e supramolecular level without incurring net chemical changes at the molecular level.

28 The GM chemical changes between 3 and 10 years of age different

29 udies is uncovering the essential details of chemical change by removing the averaging over the initi

30 how the evolution of picoscale physical and chemical changes can allow an animal to occupy an entire

31 s unambiguously show how initially localized chemical changes can propagate at the level of the globa

32 gging probe is sensitive to the physical and chemical changes caused by MICP in a laboratory bioreact

33 We identified the primary chemical change cells undergo is an increase in glycogen

34 s susceptible to degradation and can undergo chemical changes during food processing.

35 d to a myriad of analytical tools to monitor chemical changes during methane oxidation.

36 nt cell walls undergo dynamic structural and chemical changes during plant development and growth.

37 Sterilised food products undergo chemical changes during processing that ultimately deter

38 This work investigates chemical changes during shelf-life of thermally and high

39 These correlate with chemical changes expected as the substrate approaches th

40 cules that are undergoing photoionization or chemical change falls within this time scale, as does th

41 article dispersion model and then simulating chemical changes forward in time, while tagging and keep

42 not a more effective Ag in vitro, the small chemical change has a marked impact on the ability of th

43 substitutions that resulted in more radical chemical changes (higher Grantham values) and were less

44 ool for sensing extremely small physical and chemical changes; however, the difficult mechanics of br

45 The chemical change in iridium is coupled to a decrease in s

46 is designed to produce a simple catalyst for chemical change in materials under mechanical stress.

47 signment to the covalent His-Tyr and for its chemical change in P(M).

48 XPS data show very little chemical change in the C(60)(+) sputter crater, while co

49 An additive model, in which a chemical change in the structure of a compound effects t

50 nities to visualize chemical composition and chemical changes in 3D at the nanoscale.

51 simultaneously investigate morphological and chemical changes in a quantitative manner without incurr

52 Chemical changes in and around sulphide inclusions have

53 echnique including differentiation of subtle chemical changes in biological samples that may provide

54 predictive models allowed monitoring physico-chemical changes in each fruit during ripening.

55 he precise spatial and temporal evolution of chemical changes in fibroblasts upon epithelial tumor si

56 rphosis from larvae to adult can cause large chemical changes in insects, altering contaminant concen

57 this device, we monitored the spatiotemporal chemical changes in living colonies of PC12 cells under

58 drical sampling capillary combination allows chemical changes in nanoliter-volume samples to be monit

59 on regime, favoring trait remixing and rapid chemical changes in parsnip populations, as predicted by

60 ated the ability of these devices to monitor chemical changes in perturbed biological systems.

61 statistical analysis identified significant chemical changes in pet food as a result of processing,

62 ll format is a general method for connecting chemical changes in photoreceptors to conformationally d

63 nd fluorescent response with topological and chemical changes in response to a single remote signal.

64 Several chemical changes in soil are associated with plant growt

65 These data suggest that chemical changes in the boundary layer surrounding adult

66 itions are known to produce subtle and minor chemical changes in the compositions of tissue (e.g., pr

67 We were able to investigate the chemical changes in the dissolved organic matter pool at

68 and ON/OFF ratios resulting from physical or chemical changes in the electrodes themselves.

69 Structural and chemical changes in the P(M) intermediate of Paracoccus

70 We also demonstrated that the chemical changes in the Raman signatures were cell-depen

71 Because small chemical changes in the structure of nonsteroidal AR lig

72 ate tetracarboxylic acids varies with subtle chemical changes in the system.

73 ctroscopic methods through identification of chemical changes in the system.

74 These expression changes predicted specific chemical changes in the walls of mutant seedlings, and t

75 ow have examined responses to other types of chemical changes in these kinds of molecules, namely, br

76 that MOF activity is highly sensitive to the chemical changes in those residues.

77 ation of both high resolution structural and chemical changes in tissue.

78 g cell differentiation and pathology-related chemical changes in tissues but has not been widely adop

79 ctrometry (TM-DART-HRMS) was used to monitor chemical changes in various vegetable oils (olive, rapes

80 differentiation, producing morphological and chemical changes in wood.

81 Here, we discuss the chemical changes induced by helium ion irradiation.

82 his study was to compare the morphologic and chemical changes induced in the near-surface region of b

83 Mutating affected residues to mimic physio-chemical changes induced on them by RCS reduced SERCA2a

84 cs, selectively transduce parts-per-trillion chemical changes into electrical signals, perform logic

85 a single photon of long-wavelength light to chemical change is a viable solution to achieve in vivo

86 this the first example of GC x GC in which a chemical change is instituted between the two dimensions

87 till not well understood whether these local chemical changes lead to global structural changes in pr

88 Docking simulations indicate that the chemical changes made in the analogues are critical to i

89 We attribute this chemical changes mainly to the sulfide oxidation process

90 Because they mainly do not involve chemical changes, membrane transporters have been a Cind

91 combination of evolutionary conservation and chemical change might be a stronger predictor of functio

92 ring long term storage as noted by the small chemical changes observed in its composition.

93 This chemical change occurred concomitantly with modification

94 e the coverage of this method, the degree of chemical change occurring during pet food thermal proces

95 The objective of this study was to determine chemical changes occurring after a soft-deodorization pr

96 All these chemical changes occurring at the carbon surface along t

97 ion chemistry to reveal the various types of chemical changes occurring during evolution and to exemp

98 ective in terms of studying a highly complex chemical changes occurring during food processing.

99 use of this new technique to monitor dynamic chemical changes occurring in a flow injection analysis

100 or the exfoliation process and carve out the chemical changes occurring upon exfoliation, as well as

101 We reveal the chemical change of heme redox molecules where synergy ex

102 esence of a nanoporous oxide surface with no chemical change of the modified Ti surface.

103 electrodes function by tracking physical and chemical changes of active components in a working elect

104 rolysis rate over time and the structural or chemical changes of biomass during the hydrolysis reacti

105 Understanding shockwave-induced physical and chemical changes of impact-absorbing materials is an imp

106 However, the effects of e-beam on chemical changes of nutrients in infant formula have not

107 celite=3:4:1+1% citric acid) on the physico-chemical changes of oil used continuously for deep-fat f

108 The chemical changes of oxygen-containing functional groups

109 y high temperature thermal decomposition and chemical changes of polyvinyl alcohol (PVA) in a titania

110 limalide derivative, which incorporates both chemical changes of the most potent analogues, was signi

111 o the oligonucleotide as a whole, with minor chemical changes often translating into major improvemen

112 As an example for the influence of small chemical changes on solid-state structures, we studied o

113 ease of manipulation, and ability to induce chemical changes on the therapeutic carrier.

114 ous movement allows these machines to sample chemical change over a distance, leading to chemotaxis.

115 The chemical changes (oxidation/nitrosation) of meat protein

116 Chemical changes performed on 1a (sirtinol) led to a ser

117 These chemical changes promote LDL aggregation.

118 the effects of plant species and climate on chemical changes remain poorly understood, especially ov

119 are adjusted by atomic-level structural and chemical changes, resulting in the demonstration of an e

120 with ocean acidification (OA) and associated chemical changes such as declining saturation state of C

121 frying and reuse of edible fats/oils induces chemical changes such as formation of trans fatty acids

122 Milk proteins undergo chemical changes such as lactosylation, deamidation and

123 s implies the use of techniques that produce chemical changes such as oxidation.

124 ts chemical composition, and to describe the chemical changes suffered during the process in relation

125 short as about 100 ms and a sampling rate of chemical change that can approach 1 ms.

126 However, there are few archives of seawater chemical change that reveal shifts in global tectonic fo

127 io symbiosis triggers profound molecular and chemical changes that are crucial for bacterial coloniza

128 t metamorphosis often results in substantial chemical changes that can alter contaminant concentratio

129 oads may experience progressive physical and chemical changes that limit their sustainability.

130 ltimately, we anticipate characterizing rare chemical changes that may provide clues to single cell p

131 esistant microorganisms, we present here the chemical changes that mediate inactivation of Escherichi

132 mic-scale observations of the structural and chemical changes that occur as this model interfacial sy

133 f tannins in the polyphenol fractions and to chemical changes that occur during winemaking.

134 on in potato crisps and reducing undesirable chemical changes that occur in frying oil at high temper

135 otocols and different technologies, enabling chemical changes to be correlated with technological pro

136 describes previously unreported age-related chemical changes to human SC, providing an insight into

137 ng protective capsules in 33A and that small chemical changes to the capsule can drastically affect i

138 were performed to observe morphological and chemical changes to the particles, and single-particle I

139 t food allergens by inducing physical and/or chemical changes to the proteins.

140 Current studies seeking to assess chemical changes under geological CO(2) sequestration (G

141 It has shown a remarkable ability to detect chemical changes underlying cell differentiation and pat

142 This is done by establishing suitable chemical changes upon cellulose, attributing the paper t

143 Second, the distribution of chemical changes was compared between the two types of s

144 c microorganisms and subsequent toxicity and chemical changes were determined.

145 These chemical changes were similar in different locations aro

146 n kinases are regulated by conformational or chemical changes which facilitate access of substrates t

147 e TiO2-Pt interface, as opposed to a physico-chemical change within the RS film.

148 rk was quantified by measuring the extent of chemical changes within the muscle from (31)P magnetic r

149 m a primordial disk that experienced radical chemical changes within this zone.