ライフサイエンスコーパス: macromolecular system

1 e reconstituted and understood via a minimal macromolecular system.

2 tribution and anti-tumor effect of nano- and macromolecular systems.

3 o date about ion-pair dynamics in biological macromolecular systems.

4 nthesize glycerol to maintain flexibility of macromolecular systems.

5 -scale computations of many-atom and complex macromolecular systems.

6 underlying cooperative phenomena in diverse macromolecular systems.

7 nd temporal resolution for a wide variety of macromolecular systems.

8 make structural predictions of heterogeneous macromolecular systems.

9 often limits the application of NMR to large macromolecular systems.

10 deconstruction methodologies to more complex macromolecular systems.

11 approach will be applicable to other complex macromolecular systems.

12 ate products inhibit further reactions, this macromolecular system allows the product to be displaced

13 des and their precursors, the development of macromolecular systems (and their applications as drug/g

14 have been used to supply mechanical force to macromolecular systems, and highlight the advantages and

15 up new perspectives for DNP applications in macromolecular systems at ambient temperatures.

16 opy (cryo-EM) data represent density maps of macromolecular systems at atomic or near-atomic resoluti

17 The behavior of macromolecular systems at different temperatures is ofte

18 mic helical superstructures of molecular and macromolecular systems by external stimuli is a challeng

19 sibilities for topology control in synthetic macromolecular systems by introducing secondary growth p

20 The Type VI secretion system (T6SS) is a macromolecular system distributed in Gram-negative bacte

21 The methodology is applicable to any macromolecular system for which a convenient phenotypic

22 stem is essential for the engineering of new macromolecular systems for in vivo applications.

23 conjugates to clinical trials, and drug-free macromolecular systems have an excellent potential for p

24 Such functional nonequilibrium macromolecular systems hold great promise for on-demand

25 The study of complex macromolecular systems, however, requires an extensive c

26 e Carlo simulations of conformationally rich macromolecular systems in an environment that efficientl

27 structures or structural ensembles of large macromolecular systems in solution poses a challenging p

28 kely applicable to many charged colloidal or macromolecular systems in which the structural conformat

29 ctrochemical approach that can be applied to macromolecular systems lacking essential disulfide bonds

30 roxy, from within the hydrophobic domains of macromolecular systems (log P > 1.9).

31 By adding ambient occlusion, large macromolecular systems look much more natural, and the p

32 This constitutionally dynamic macromolecular system offers the possibility of harnessi

33 ordering transitions are rarely observed in macromolecular systems, often because of kinetic limitat

34 s are important factors in nature's delicate macromolecular systems, our quantitative analysis of the

35 footprinting to extend our understanding of macromolecular systems, particularly for systems challen

36 evel, and application of this methodology to macromolecular systems provides a means for extending su

37 t and TTS breakdown should normally occur in macromolecular systems ranging from nanocomposites to th

38 s suggest that in general positively charged macromolecular systems should show inverse Hofmeister be

39 Creating new chiral molecular and macromolecular systems that can polarize the spin of ele

40 However, in macromolecular systems, the role that these clusters mig

41 Enteric bacteria use a limited array of macromolecular systems to implement diverse pathogenic s

42 valuation of the binding constant in complex macromolecular systems, to be introduced in a well defin

43 us molecular mechanics applications on large macromolecular systems undergoing large conformational c

44 Conformational heterogeneity in three macromolecular systems was analyzed with MESMER, demonst

45 o effects allow new design possibilities for macromolecular systems with enhanced catalytic OER/ORR a