ライフサイエンスコーパス: small-angle scattering

1 ficant neutron scattering techniques, namely small angle scattering.

2 ic and dynamic light scattering, and neutron small angle scattering.

3 d transmission electron microscopy and X-ray small angle scattering.

4 ormidable challenge, particularly when using small-angle scattering.

5 es were determined by numerical inversion of small angle scattering and isothermal magnetisation data

6 Through small-angle scattering and molecular modeling, we have p

7 The model incorporates the improved small-angle scattering approximation (SAA) to radiative

8 Despite the ever-increasing usage of small-angle scattering as a valuable complementary metho

9 ains-determined by X-ray crystallography and small angle scattering-as well as kinetics experiments d

10 The small-angle scattering curve analysis, which is also an

11 Small angle scattering data from bovine lung type Ialpha

12 rr complex is experimentally determined from small angle scattering data to present the first structu

13 idual amino acid side chains, implied by the small angle scattering data, could have significant effe

14 activated DctD receiver domain derived from small angle scattering data.

15 Small-angle scattering data are collected from solutions

16 a generally useful tool for the analysis of small-angle scattering data from concentrated macromolec

17 lar assemblies by analyzing x-ray or neutron small-angle scattering data is presented.

18 uantitatively simulated previously published small-angle scattering data of hydrated Nafion.

19 ir ligands; SASBDB, a primary repository for small-angle scattering data of various macromolecular co

20 the VEGF-E/VEGFR-2 ECD complex derived from small-angle scattering data provided evidence for homoty

21 structure at room temperature to explain the small-angle scattering data, as it is consistent with a

22 estoration of soluble protein structure from small-angle scattering data, we construct a general mult

23 nuclear magnetic resonance spectroscopy and small-angle scattering data.

24 In addition, small-angle scattering experiments show that LLhP is mor

25 Three examples are given of application to small-angle scattering from pressure-induced unfolding o

26 flectivity (XRR) and grazing incidence X-ray small-angle scattering (GISAXS) reveal that unfunctional

27 g the dark-field signal, which is related to small-angle scattering in the sample.

28 14 A using a synchrotron X-ray source and a small-angle scattering instrument adapted for single cry

29 We compute small-angle scattering intensities, pore size distributi

30 Small-angle scattering intensity profiles measured or ca

31 The resulting small-angle scattering intensity profiles were best fit

32 24I, derived using electron microscopy (EM), small-angle scattering (neutron and X-ray), and detailed

33 n vitro and in cellulo FRET measurements and small-angle scattering of x rays (SAXS).

34 this respect, experimental information from small-angle scattering of X-ray radiation in solution (S

35 Small-angle scattering of x-rays (SAXS) and neutrons (SA

36 of probing ultrastructure ordering, such as small-angle scattering of X-rays or neutrons, can be app

37 een developed that allows observation of the small angle scattering profile of an integral membrane p

38 However, to date the quantification in the small angle scattering regime is severely limited by the

39 eat spacings (5.0 nm at 55 degrees C) in the small-angle scattering region which first appears at app

40 Modern small-angle scattering (SAS) experiments with X-rays or

41 Small-angle scattering (SAS) has a proven ability to det

42 revious modeling of its trimeric nature from small angle scattering (SAXS) data.

43 atial beam modulation, allows for mapping of small-angle scattering signals and hence addressing micr

44 Small-angle scattering studies generally indicate that t

45 idopsis thaliana; AtCESA1CatD) determined by small-angle scattering techniques and provides the first

46 Small-angle scattering tensor tomography is applicable t

47 Using small-angle scattering, the protein was found to be stru

48 We used small-angle scattering to measure the effects of macromo

49 We have used small-angle scattering to study the calcium dependence o

50 with statistical coil ensemble modeling and small-angle scattering, to analyze the conformational be

51 er solution, the micelle contribution to the small angle scattering vanishes, and the molecular weigh

52 X-ray diffraction and small-angle scattering verified the incorporation of RS

53 Small angle scattering with contrast variation has revea

54 turated, ternary cardiac troponin complex by small-angle scattering with contrast variation.

55 we introduce an imaging method that combines small-angle scattering with tensor tomography to probe n

56 Combined small-angle scattering with X-rays and neutrons coupled