ライフサイエンスコーパス: chemical model

1 cilitating post-translational modifications (chemical model).

2 it models the master equation of a detailed chemical model.

3 , induction, and pK(a) were evaluated in the chemical model.

4 surface chemistry in blood clotting and its chemical model.

5 based on an inhomogeneous, triphasic mechano-chemical model.

6 o or in situ, in vitro biofilm, and in vitro chemical models.

7 ve kinetics of this fast reaction for use in chemical models.

8 ch for developing accurate and interpretable chemical models.

9 vironments may be underappreciated in global chemical models.

10 abundance is lower than predicted by present chemical models.

11 derably more abundant than expected from the chemical models.

12 ed on the atmospheric losses calculated with chemical models.

13 d UV-vis spectroscopy, together with quantum-chemical modeling.

14 n the mammalian nervous system using quantum chemical modeling.

15 osed mechanism and in agreement with quantum chemical modeling.

16 -vis and Raman spectroscopies and by quantum chemical modeling.

17 ctive form of the enzyme, which was shown by chemical model and mass spectrometric studies to be a Cy

18 Chemical modeling and assay of purified demethylnaphthoq

19 Studies on chemical models and enzymes had suggested that these car

20 meteorites remains a mystery since prebiotic chemical models and laboratory experiments have predicte

21 s in diffuse clouds, the discrepancy between chemical models and the previous observations of H3+ can

22 emists have addressed exceptions and refined chemical models and theories, employing a systematic fra

23 erstanding hot core chemistry remain because chemical models are not well developed and interferometr

24 ns (in nanograms per milliliter) of six PFAS chemicals modeled as per interquartile range (IQR) incre

25 Here, we present a simplified mechano-chemical model based on ordinary differential equations

26 adband rotational spectroscopy with detailed chemical modeling based on rate constants obtained from

27 the generation of homochirality in a general chemical model (based on the homogeneous, fully connecte

28 tration experiments, with supporting quantum-chemical model calculations, we explain how certain low-

29 Physical chemical models capture most parameters but differ in ba

30 to be highly distorted; calculations on full chemical models corroborate experimentally determined S

31 A chemical model demonstrated that the wavelength is appro

32 he activation within the frame of a physical-chemical model describing dimerization, ligand binding,

33 Ds) before and after exposure to an in vitro chemical model designed to simulate oxidative weathering

34 ofiles will serve as a benchmark for testing chemical models developed to improve the understanding o

35 use folding experiments are interpreted with chemical models (e.g., the two-state model), which assum

36 active center variants, in conjunction with chemical models, enabled assignment of the negative band

37 for minimal conditions for which our general chemical model exhibits spontaneous mirror symmetry brea

38 The faster turnover with TCEP provides a chemical model for activation of CD-0387 and other CDs b

39 es the mechanics of cell shape and a minimal chemical model for CIL, we are able to reproduce all cas

40 tions in the simulated room using a detailed chemical model for indoor air (the INDCM).

41 s in the context of the use of (t) BuO. as a chemical model for reactive oxygen-centered radicals is

42 al human behavior and has been proposed as a chemical model for schizophrenia.

43 f magnesium (iso)cyanates in the ISM and the chemical model for the dust grain surface reactions.

44 oscopic model leads to a macroscopic mechano-chemical model for tissue extension that couples FGF act

45 Possible chemical models for this strong dependence are discussed

46 e H3+ abundance is understood using a simple chemical model, from which observations of H3+ yield val

47 Chemical modeling gave good results and the errors in pH

48 nomer to octamer can be accommodated using a chemical model, grounded on the homochiral preference of

49 Our new human-derived chemical model has great potential to provide an ex vivo

50 ndividually and in combination, as well as a chemical modeling have been carried out to study the beh

51 Quantum chemical modeling identified a uridine conformer whose c

52 Quantum chemical modeling in vacuo also finds no difference, asi

53 ding experiments have been interpreted using chemical models in which the folding process is characte

54 Quantum chemical modeling is used to rationalize the selective X

55 The chemical model made additional predictions that were val

56 spects of previously proposed mechanical and chemical models may lead to a more complete understandin

57 This Article introduces a simple chemical model of a beta-sheet (artificial beta-sheet) t

58 ges relayed through the molecule, provides a chemical model of allostery and might serve as a molecul

59 eV, which is consistent with the anticipated chemical model of an ionic solid.

60 cin in Tnfa knockout (KO) mice, to provide a chemical model of diabetes, and Tnfa (KO) mice were cros

61 We therefore developed a novel pediatric chemical model of inflammatory bowel disease (IBD), an i

62 both gel and resin domains using a detailed chemical model of metal ions and protons interacting wit

63 inetics in rats and showed efficacy in a rat chemical model of osteoarthritis.

64 ht into the underlying mechanisms, a minimal chemical model of skin based on a mixture of lipid, mela

65 Here we show that a quantum chemical model of the bovine rod pigment provides a mole

66 We have developed a coupled mechanical-chemical model of the coiling process, accounting for th

67 In addition, solution hydrolysis in a chemical model of the S-alkylthiouronium intermediate wa

68 rrangement of BPRs may be vital for accurate chemical modeling of the atmosphere.

69 Quantum chemical modeling of the neutral iron-porphyrin complex

70 Quantum chemical modeling of the RHO zeolite structure substanti

71 aise the possibility of quantitative quantum chemical modeling of transition metal clusters with spec

72 y can be established by constructing quantum chemical models of a set of Archaerhodopsin reporters in

73 elf-reproducing lipids are widely studied as chemical models of compartmentalized biological systems.

74 emission sources, we use a series of reduced chemical models of decreasing complexity with increasing

75 d potential latency in both inflammatory and chemical models of demyelination.

76 Many chemical models of dense interstellar clouds predict tha

77 NPY) modulates alcohol intake in genetic and chemical models of high intake, while leaving intake una

78 This shift protects SN neurons in chemical models of Parkinson's disease (PD), suggesting

79 comparison with EXAFS data and with quantum chemical models of the oxidized and reduced forms of the

80 ts are then used to design and build quantum chemical models of three distinct types of Schiff base r

81 onal correlation of experimental values with chemical models permits three-dimensional geometric and

82 and NMR spectroscopic analyses, and quantum chemical modeling point instead to electrocyclic closure

83 rticipation of superoxide anion in a related chemical model reaction that supports a single electron-

84 imulation with experiment indicates that the chemical model renders the time series for HRP oxidation

85 Based on these quantum chemical modeling results, a mechanism for the catalytic

86 Quantum chemical modeling revealed a possible new tertiary carbo

87 -13 MHz and eta = 0.8) supported by quantum chemical modeling revealed that the Ni-CO bond results f

88 ios of HONO/NO(2) and NO(2)/NO(z) by current chemical model schemes and rationalize atypical diurnal

89 gen emissions in both the box model and a 3D chemical model showed significant increases in oxidants

90 Results from quantum chemical modeling showed that formation of HMS and HMSi

91 Chemical model simulations reveal that the iodine-induce

92 the DeltaG(tr) values are independent of the chemical model studied, and experimental conditions are

93 ased partial reconstitution experiments, and chemical model studies to support this identification.

94 Chemical models such as cobalamine (vitamin B12) and its

95 Chemical models suggest the lambda(max) of I(2) (near 40

96 Our chemical modelling suggests that this SiH(4) abundance m

97 A combination of chemical model system with kinetics study was used to in

98 supported in numerical simulations, a simple chemical model system, and experiments with human blood

99 This article demonstrates that a simple chemical model system, built by using a modular approach

100 on of N-acetyltyrosine acylated with EA in a chemical model system.

101 Overall, these results demonstrate that such chemical model systems, implemented with microfluidics,

102 though examples from proteins, amyloids, and chemical model systems.

103 te) based on a bidirectional electrochemical-chemical model to achieve dual regulation of the MnO(2)

104 Here, we use a chemical model to show that the binding of a monovalent

105 tric-field-resolved spectroscopy and quantum-chemical modelling to precisely measure and describe the

106 A zero-dimensional chemical model underpredicted the measured OH concentrat

107 etic isotope effect measurements and quantum chemical modeling was used to provide subangstrom detail

108 anic synthesis, NMR spectroscopy and quantum chemical modeling, we show that acetyl group migration i

109 pendent measurements complemented by quantum chemical modeling, we show that these ultrafast dynamics

110 l structure, and in combination with quantum-chemical modelling, we provide a complete microscopic pi

111 ing the ortho/para ratio in conjunction with chemical models, we find that the dense core has been ch

112 Using genetic and chemical models, we show that aP2 is the predominant reg

113 Chemical models were synthesized that both confirm its e

114 A BZ chemical model with an additional flux of chemicals out

115 r results call into question previously used chemical models, with important implications for the int

116 Crystal-chemical modeling yielded packings for amino acids neatl