ライフサイエンスコーパス: microcrystal

1 roelastic domains in a defected Al-doped VO2 microcrystal.

2 to nitrogen--vacancy centers in the diamond microcrystal.

3 c ferroelectric diisopropylammonium chloride microcrystal.

4 rocess to promote the growth of inclined ZnO microcrystals.

5 nolayer-thick cap at the external surface of microcrystals.

6 DPPH standard in the form of water-insoluble microcrystals.

7 ectron diffraction experiments on individual microcrystals.

8 chronic articular responses to inflammatory microcrystals.

9 nts of c.d. and of electron diffraction from microcrystals.

10 o record x-ray diffraction data from protein microcrystals.

11 ffect photomechanical deformations of single microcrystals.

12 ity of the framework is maintained in porous microcrystals.

13 uch larger, cryocooled granulovirus granulin microcrystals.

14 ng exactly at saturation without introducing microcrystals.

15 ers from hundreds of thousands of individual microcrystals.

16 lease in human neutrophils activated by CPPD microcrystals.

17 determination by serial X-ray diffraction of microcrystals.

18 y for determining structures from showers of microcrystals.

19 Structures of 13 of these microcrystals all reveal steric zippers, but with variat

20 lso showed distinct conformations for single microcrystals and confirms that crystallization properly

21 ed here for two proteins, alpha-spectrin SH3 microcrystals and hydrophobin functional amyloids.

22 lection of electron diffraction data from 3D microcrystals and nanocrystals of radiation-sensitive bi

23 are much less deformable than the desolvated microcrystals and shatter completely at very low applied

24 The aggregation of COM microcrystals and their attachment to epithelial cells a

25 c guests, including drugs, in both water and microcrystals, and drugs absorbed in microcrystals can b

26 ange of 0-4 GPa for individual 1.2 mum ZIF-8 microcrystals, and the deformed microcrystals partially

27 H(2)O from unit cells at the surface of the microcrystals, and the rate of diffusion of H(2)O across

28 1 cocrystals; the size distribution of these microcrystals, and the resulting polymer chains, can be

29 Microcrystals are continuously rotated during data colle

30 decahedron, supports the proposal that these microcrystals are cubic crystals twinned about an icosah

31 pproach, liquid solutions containing protein microcrystals are deposited on carbon-coated electron mi

32 When these microcrystals are illuminated with light of lambda=405 n

33 Individual microcrystals are located by raster-scanning a several-m

34 Methanol-solvated ZIF-8 microcrystals are much less deformable than the desolvat

35 For loading, the suspended microcrystals are pipetted onto the chip and excess moth

36 Here, using tetrakaidecahedral Zn2SnO4 microcrystals as an example, we employed alternating cur

37 sing the atomic resolution structures of the microcrystals as the starting points, we show that the R

38 erial femtosecond X-ray crystallography from microcrystals at an X-ray free electron laser.

39 electrosolution, revealing aggregates of 20 microcrystals at the corners of a pentagonal dodecahedro

40 lude surface plasmon resonance (SPR), quartz microcrystal balance (QMB) and surface acoustic wave (SA

41 1 mug cm(-2) using an electrochemical quartz microcrystal balance.

42 his protocol gives advice on how to identify microcrystals by light microscopy or by negative-stain e

43 The growth of microcrystals can be controlled by a variety of agents,

44 We also show that the solubility of the microcrystals can be further tuned by varying the thickn

45 ter and microcrystals, and drugs absorbed in microcrystals can be released to water with selectivity.

46 ine to the mother liquor in contact with the microcrystals, consistent with a conformational rearrang

47 al investigation of slowly compressed nickel microcrystals, covering three orders of magnitude in nom

48 ed to high resolution (~2.5 A) using protein microcrystals deposited on an ultra-thin silicon nitride

49 hly selective detection of individual chiral microcrystals, enabling insights into the fundamental me

50 It was also found that GaN microcrystal ensembles are dominated by slight tensile s

51 The x-ray powder pattern of the microcrystals, extending to 0.9-A resolution, yields the

52 d with rapid energy transfer through the MOF microcrystal facilitates amplified quenching with a 7000

53 A diamond microcrystal fixed on the fiber tip is heated by laser r

54 for growth and delivery of membrane protein microcrystals for crystallographic data collection.

55 for the preparation and characterization of microcrystals for LCP-SFX applications.

56 Screening microcrystals for quality diffraction takes roughly an h

57 okinetic injector for efficiently delivering microcrystals for serial femtosecond X-ray crystallograp

58 t a metastable state toward beta-sheet-based microcrystals formation.

59 We extracted microcrystals from arm tip photophores and identified th

60 cribe time resolved experiments on PSII nano/microcrystals from Thermosynechococcus elongatus perform

61 ll exists over large areas of the surface of microcrystals from Valonia, one of the most highly cryst

62 rms amyloid-like fibrils and closely related microcrystals, from which we have determined the atomic

63 on to study the structural properties of GaN microcrystals grown by ES-SAG.

64 n serotonin receptor using sub-10-micrometer microcrystals grown in a membrane mimetic matrix known a

65 These microcrystals have been obtained by thermolysis of (AuCl

66 changes during the dissolution of a calcite microcrystal in aqueous solution.

67 await Land, who oriented fragile herapathite microcrystals in extruded polymers, a process that produ

68 we have unraveled structural dynamics of GaN microcrystals in growth structures of different dimensio

69 Compared with SFX methods for microcrystals in solution using liquid injectors, LCP-SF

70 ly show that grain refinement of the initial microcrystals into nanocrystals (approximately 5 nm) occ

71 Although every microcrystal is exposed to a dose of 33 MGy, no signs of

72 idues at the intermolecular interface of the microcrystal lattice, which we attribute to intermediate

73 high-resolution structural information from microcrystals (less than 1 micrometer by 1 micrometer by

74 Kidney stones, aggregates of microcrystals, most commonly contain calcium oxalate mon

75 temperature X-ray diffraction data of PS II microcrystals obtained using ultrashort (< 50 fs) 9 keV

76 Single microcrystals of a 1:1 solid solution of n-C32H66/n-C36H

77 ecular orientation of CO2 adsorbed in single microcrystals of a functionalized metal-organic framewor

78 the precipitation of antimonite [Sb(III)] as microcrystals of antimony trioxide.

79 ut quartz, NOSE microscopy was performed for microcrystals of both naproxen and glucose isomerase.

80 Microcrystals of calcium pyrophosphate dihydrate (CPPD)

81 nes are aggregates, most commonly containing microcrystals of COM as the primary inorganic constituen

82 oute for the production of antimony trioxide microcrystals of commercial significance to the nanotech

83 Microcrystals of desired sizes are important in a range

84 We used the injector to analyze microcrystals of Geobacillus stearothermophilus thermoly

85 oscopy, we video the intercalation of single microcrystals of graphite in concentrated sulfuric acid.

86 nts that control the growth and stability of microcrystals of monovalent or multivalent inorganic sal

87 We used microcrystals of photoactive yellow protein (a bacterial

88 RD) and x-ray emission spectroscopy (XES) of microcrystals of photosystem II (PS II) at room temperat

89 3)C spectra have been acquired from hydrated microcrystals of site-directed (13)C-enriched ubiquitin.

90 Microcrystals of tetra-/hexamethoxypyrene as donors with

91 precipitation has been used to grow branched microcrystals of the anthracene derivative 4-fluoroanthr

92 present X-ray diffraction data recorded from microcrystals of the Blastochloris viridis photosyntheti

93 microporous polymer membranes incorporating microcrystals of the complex show identical vapochromic

94 elength anomalous scattering measurements on microcrystals of the well-established model system lysoz

95 Microcrystals of this peptide also share the principal p

96 e fragmentation and morphological changes in microcrystals of ZIF-8 at lower shock pressures ( approx

97 gmentation of large, imperfect crystals into microcrystals or nanocrystals can provide a simple path

98 hoton-pumped solid-state laser in single MOF microcrystal (or nanocrystal) for future optoelectronic

99 ing proteins that form amyloid-like fibrils, microcrystals, or usually both.

100 rystallography on photoactive yellow protein microcrystals over a time range from 100 femtoseconds to

101 .2 mum ZIF-8 microcrystals, and the deformed microcrystals partially recovered after pressure release

102 Identifying microcrystals, preparing samples and setting up the micr

103 gel-like LCP with embedded membrane protein microcrystals, providing a continuously renewed source o

104 PHE was present as microcrystals, providing non-limiting conditions for gro

105 /or do not produce the copious quantities of microcrystals required for flowing jet methods.

106 These protein microcrystals, roughly a micron across, accrue within in

107 d about an icosahedral seed, with each cubic microcrystal sharing a threefold axis and three symmetry

108 sible in electron micrographs or needle-like microcrystals showing a cross-beta diffraction pattern.

109 transfer 2.5 nL droplets from the surface of microcrystal slurries, through the air, onto mounting mi

110 sm in atomic detail, we determined eight new microcrystal structures of fiber-forming segments of Abe

111 (g)) was delivered to or swept away from the microcrystal surfaces.

112 photophores are densely packed with protein microcrystals that catalyse the bioluminescent reaction

113 h a solubility of ~1 mM and can readily form microcrystals that lead to cystine stone formation, espe

114 HG) imaging, enabled detection of homochiral microcrystals that survived only a few seconds before be

115 sections led to detection of the presence of microcrystals that were demonstrated as precipitates of

116 bdenum disulfide and hexagonal boron nitride microcrystals, the most-promising van der Waals semicond

117 These attached microcrystals then grow larger over time during immersio

118 have permitted transport through individual microcrystals to be evaluated semiquantitatively.

119 For work with very small microcrystals to be realized in practice, however, it is

120 urcumin content by incorporation of curcumin microcrystals upon electrospraying.

121 homogeneous behaviour of even individual VO2 microcrystals using pump-probe microscopy and nanoimagin

122 ltraprecise nanoscale measurements on nickel microcrystals, we directly determined the size of discre

123 n the mechanical behavior of ZIF-8 nano- and microcrystals were also investigated.

124 Lysozyme microcrystals were frozen on an electron microscopy grid

125 BCP microcrystals were internalized into vacuoles of human m

126 imidazolate framework (ZIF-8) micro- and sub-microcrystals were observed under compression.

127 uman lactate dehydrogenase isozyme 1 (LDH-1) microcrystals were separately dissolved and subsequently

128 erminations from the measurement of multiple microcrystals which were previously considered too small

129 tensities from a heterogeneous population of microcrystals, while at the same time modeling the X-ray

130 tracompact fiber-optic probe where a diamond microcrystal with a well-defined orientation of spin qua

131 d sensitive and selective imaging of protein microcrystals with negligible contributions from solvate

132 orthorhombic (bco) phases in bipyramidal Au microcrystals with penta-twinned tips.

133 igh resolution diffraction data from protein microcrystals with sizes of 4 micrometers and smaller.