ライフサイエンスコーパス: structural disorder

1 ring of an impact as a function of the local structural disorder.

2 se transport lengths even in the presence of structural disorder.

3 are not equipped to incorporate significant structural disorder.

4 al properties that predict a high content of structural disorder.

5 eric complexes that also show high levels of structural disorder.

6 cess at room temperature is still related to structural disorder.

7 a variety of interesting and useful types of structural disorder.

8 trafficking proteins and correlated it with structural disorder.

9 presenting a novel universality class of the structural disorder.

10 F(x))(2) with x = 0.5), indicating extensive structural disorder.

11 transition state characterized by increased structural disorder.

12 ch the spectra are normally broadened due to structural disorder.

13 7 derives a kinetic advantage from intrinsic structural disorder.

14 of magnetic fields, and a close relevance to structural disorder.

15 se of the protease from the complex, and the structural disorder allows its proteolytic destruction.

16 Here we review the role of structural disorder and conformational flexibility in th

17 esearch community for a better understanding structural disorder and for developing better computatio

18 re relatively insensitive to the presence of structural disorder and high charge carrier mobilities a

19 ns encoding for protein segments enriched in structural disorder and interaction sites.

20 The high R factor results from structural disorder and many weak intensities close to d

21 Finally, we note that we have found similar structural disorder and spin-spin interactions in both s

22 that NEMO has a significant degree of native structural disorder and that molecular flexibility and l

23 rest because of their relative robustness to structural disorder and the associated benefit to 'manuf

24 Structural disorder and variability of the fibrils have

25 rials can be intrinsically doped by means of structural disorder and/or change in stoichiometry.

26 usly low lattice thermal conductivity due to structural disorders and phonon folding.

27 The data show that membrane structural disorder, and not the depth of membrane inser

28 oops of PGM1, are found to induce regions of structural disorder, as evidenced by a nearly complete l

29 appearing above 15 GPa appears to trigger a structural disorder at ~20 GPa; full decompression from

30 ay be a model material for investigating how structural disorder can stabilize a quantum spin liquid

31 e disordered region(s), and methods used for structural (disorder) characterization.

32 entification and treatment of any underlying structural disorder; control of the ventricular rate, bo

33 ich exhibits open or closed conformations or structural disorder, depending on the bound ligand.

34 ield, differentiates FGIDs from motility and structural disorders, discusses the changes from Rome II

35 The intrinsic structural disorder dramatically affects the thermal and

36 re shown to originate from a small amount of structural disorder (e.g., amorphous inclusions embedded

37 se sequence context-dependent differences in structural disorder engendered by a loss of local base s

38 These include structural disorder, excess volume, pseudovacancy arrays

39 genicity in the outer domain correlates with structural disorder in adjacent N-terminal segments, as

40 ptual advance in understanding the nature of structural disorder in ferrihydrite and its relation to

41 The widespread importance of structural disorder in gene regulatory proteins may deri

42 ing illustrates the functional importance of structural disorder in macromolecular assemblies stabili

43 versity and offer insights into the role for structural disorder in mediating binding specificity in

44 fpRFDR-CT data and NMR spectra also indicate structural disorder in the N-terminal segment of A beta(

45 ICP0 interaction mapped to a region of structural disorder in the Nbs1 protein.

46 oteins, supporting the general importance of structural disorder in these routes, although some of th

47 ur results confirm the general importance of structural disorder in vesicle trafficking and suggest m

48 Unlike other functional and structural disorders in galactose neuropathy, factors ot

49 The induced structural disorder is correlated with increased sensiti

50 The highest degree of structural disorder is displayed by the C-terminal segme

51 basic structure, composition, and extent of structural disorder is essential for understanding its r

52 roximately regular periodic structures; some structural disorder is, however, inevitable in biologica

53 The resulting local anisotropic structural disorder leads to phonon scattering not norma

54 or ligand-sensitive domains to modulate the structural disorder of diverse proteins, thereby generat

55 cetylation affects both functions by causing structural disorder of the basic patch K(16)R(17)H(18)R(

56 n H4, a mimic of K16 acetylation, leads to a structural disorder of the basic patch.

57 ) sites in the primary Keggin NP structure), structural disorder of the Keggin NPs, exposed surface a

58 ility of the fluorophore labels and the real structural disorder of the labeled biomolecules.

59 structure, and the simulations point to the structural disorder of water and lipid head-groups as th

60 ble guidelines in assessing the influence of structural disorder on the functionality of a broad arra

61 This structural disorder on the single-chromophore level may

62 anode material of haematite as a study tool, structural disorders on or near the surfaces are importa

63 ortem, directs familial evaluation targeting structural disorders or primary arrhythmogenic syndromes

64 r human and yeast and analyzed them from the structural disorder perspective.

65 provide spin-transport media with much less structural disorder relative to organic thin films, thus

66 al space, with subsequent local chemical and structural disorder resulting from different atomic size

67 three regions in wild-type Cdc42Hs that show structural disorder (Switch I, Switch II, and the Insert

68 er, we suggest an alternative model of inter-structural disorder that can achieve the same broad-angl

69 Nanoparticles may contain unusual forms of structural disorder that can substantially modify materi

70 of retrotransposons contain high amounts of structural disorder; thus, despite their very low conser

71 constraining the EXAFS analysis and allowing structural disorder to be estimated.

72 evolutionary advantages and disadvantages of structural disorder under controlled laboratory conditio

73 ferences in secondary structure and observed structural disorder (unresolved residues), difference di

74 It also suppresses the onset of structural disorder, which is seen on compression in oth

75 nce that Nup2p contains extensive regions of structural disorder with comparatively small contributio

76 ities that are less affected by chemical and structural disorder with respect to classic semicrystall

77 s and tau=23+/-3 ps), which is attributed to structural disorder within the film giving rise to one p

78 orphous mineral phase results in substantial structural disorder within the monolayers.