ライフサイエンスコーパス: structural disorder

1 at it is influenced by intentionally-induced structural disorder.

2 g into AgSbTe(2) serves to partially curtail structural disorder.

3 ing metastable Li-birnessite with controlled structural disorder.

4 ability to readily characterise and quantify structural disorder.

5 nimal domains have a tendency to have higher structural disorder.

6 these intermediate states, as well as their structural disorder.

7 roducible micrometer-scale domains pinned to structural disorder.

8 f transport even in the face of energetic or structural disorder.

9 domain flanked by long regions of predicted structural disorder.

10 as the decrease in crystal size induced more structural disorder.

11 enhancement is caused by an increase of gel structural disorder.

12 isorder that outcompetes both electronic and structural disorder.

13 d vertebrate species evolve higher intrinsic structural disorder.

14 a and Ca ions, which minimizes the impact of structural disorder.

15 tein's active center through increased local structural disorder.

16 nitride, demonstrating it to be of the least structural disorder.

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

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

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

20 are not equipped to incorporate significant structural disorder.

21 as both phases accommodate a high degree of structural disorder.

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

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

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

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

26 trafficking proteins and correlated it with structural disorder.

27 presenting a novel universality class of the structural disorder.

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

29 transition state characterized by increased structural disorder.

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

31 changes in dependencies on residue owing to structural disorder.

32 7 derives a kinetic advantage from intrinsic structural disorder.

33 s that the capacitance enhancement is due to structural disorder.

34 and 1400-1700 degrees C, featuring pervasive structural disorders.

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

36 n OMIECs, doping is often a tradeoff between structural disorder and charge carrier mobilities.

37 Based on structural disorder and charge distributions, we hypothe

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

39 their tracks caused a substantial amount of structural disorder and distortion at both vanadium and

40 uctivity; however, its origin is obscured by structural disorder and dopant clustering.

41 ese results indicate that the maintenance of structural disorder and dynamics of the Gag N-terminal s

42 tron transport to originate from the reduced structural disorder and energetic disorder with the incr

43 Instead, water structural disorder and enhanced electric fields emerge

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

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

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

47 However, the structural disorder and lack of binding pockets have mad

48 by small-molecule ligands due to significant structural disorder and lack of defined small-molecule b

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

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

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

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

53 more, the addition of zinc chloride leads to structural disorder and the formation of shallow trap st

54 Structural disorder and variability of the fibrils have

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

56 thium-rich layered oxides exhibiting minimal structural disordering and stable voltage retention even

57 r results provide a genuine insight into how structural disordering and structural water improve sodi

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

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

60 evaluate phase purity and compositional and structural disorder, and probe molecular dynamics and io

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

62 ack atomic precision owing to the inevitable structural disorder at the interfaces between the consti

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

64 ransformations introduce additional entropy (structural disorder) besides configurational entropy.

65 FASD was not a progressive brain structural disorder by middle age, but whether accelerat

66 Structural disorder can be used to tune the properties o

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

68 The structural disorder causes curvature-induced band gap fl

69 These energies quantify the static, structural disorder causing localized exponential-tail s

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

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

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

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

74 casein changed the HPI structure, promoting structural disorder, disulfide bond rearrangement, and a

75 These studies reveal that structural disorder does occur in VWD variants of the A1

76 The intrinsic structural disorder dramatically affects the thermal and

77 idate the universal mechanism underlying the structural-disorder-driven MIT in 2D semiconductors thro

78 t is a challenge to understand the nature of structural disordering, due to the difficulty of direct,

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

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

81 These include structural disorder, excess volume, pseudovacancy arrays

82 rather flexible, the resulting energetic and structural disorder gives rise to a complex excited-stat

83 Our findings demonstrate that the structural disorder in 2D materials is essential to unde

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

85 figure out how they can help to identify the structural disorder in cathode materials.

86 theoretical calculations, we demonstrate the structural disorder in delithiated Li(1.46)Ni(0.32)Mn(1.

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

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

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

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

91 s in VWF to verify the presence of A1 domain structural disorder in multimeric VWF harboring type 2 V

92 ublication, Forse and co-workers reveal that structural disorder in nanoporous carbon materials signi

93 This study innovatively shows that structural disorder in nanoporous carbon materials signi

94 Raman spectroscopy, a common probe of local structural disorder in nanoporous carbons, to test the d

95 to a revision of the traditional concept of structural disorder in terms of more sophisticated and i

96 ulations reveal a strong correlation between structural disorder in the electrodes and capacitance.

97 Impact diamonds, however, often exhibit structural disorder in the form of complex combinations

98 anionic redox could determine the extent of structural disorder in the materials.

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

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

101 n of D179 substitutions produce a pronounced structural disorder in the omega loop - more than R164 m

102 ctively, our results show that variation and structural disorder in the S glycoprotein is a general f

103 sults highlight both the challenges posed by structural disorder in the study of twisted homobilayer

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

105 To understand the functional contribution of structural disorder in this region, we introduced precis

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

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

108 reduced cell viability, caused mitochondrial structural disorder, increased ROS levels and decreased

109 ted to be bright and efficient emitters, but structural disorder, intermolecular interactions and the

110 The induced structural disorder is correlated with increased sensiti

111 nting the pathological functions mediated by structural disorder is crucial to successfully target pr

112 We postulate that such a kind of structural disorder is detrimental to fast ion transport

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

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

115 ance performance, suggesting that optimizing structural disorder is key to developing high-energy-den

116 Structural disorder is widespread in regulatory protein

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

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

119 When present, structural disorder makes it very challenging to charact

120 Mitochondrial structural disorder occurred in the kidneys, with signif

121 mplete and unique pair of signatures for the structural disorder of a multicellular system.

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

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

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

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

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

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

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

129 This structural disorder on the single-chromophore level may

130 omerization (by up to 20%) and amplifies the structural disordering on isomerization, resulting in en

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

132 mogeneity in the superfluid is not caused by structural disorder or strong inter-pocket scattering an

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

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

135 In addition, intrinsic structural disorder provides a largely unexplored handle

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

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

138 es, but the coexistence of lattice order and structural disorder severely hinders our understanding o

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

140 Within ssE3s structural disorder tends to be located in substrate bin

141 no acids have noticeably less propensity for structural disorder than the rest of the domain.

142 eversal in wurtzites without the chemical or structural disorder that accompanies elemental substitut

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

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

145 ein, we bring to focus the various levels of structural disorder that emerged from spectral and chemi

146 hen partially localizes through the onset of structural disorder that is characteristic of large clus

147 en MOFs are nanosized with a large amount of structural disorder, they should no longer be considered

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

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

150 in crystal size induces different amounts of structural disorder to the Ti-oxo node, further changing

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

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

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

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

155 distribution function profiles, we correlate structural disorder with high-valent oxygen redox and it

156 akthrough in capacity limits, while inducing structural disorder with reduced electrochemical reversi

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

158 Introducing compositional or structural disorder within crystalline solid electrolyte

159 Structural disorder within materials gives rise to fasci

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

161 re, we demonstrate that the reinstatement of structural disorder within the material can also be acco

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

163 report here that the absence of Zn leads to structural disorder within two loop regions of SOD1, tri