ライフサイエンスコーパス: dynamical behavior

1 develop a mechanism for this new and unusual dynamical behavior.

2 g and global efficiency, exhibit the richest dynamical behavior.

3 cessary to faithfully replicate the observed dynamical behavior.

4 m to an alternative state with a contrasting dynamical behavior.

5 ncovering its structural characteristics and dynamical behavior.

6 m walk is defined to include various quantum dynamical behavior.

7 rties by surface-induced modification of its dynamical behavior.

8 ree DNA reaction networks exhibiting complex dynamical behavior.

9 conformations, thus suggesting a pronounced dynamical behavior.

10 d; and finally (iii) genes that have similar dynamical behavior.

11 about which interactions contribute to p53's dynamical behavior.

12 movements is critical to understanding their dynamical behavior.

13 us modular structures and the range of their dynamical behavior.

14 reported here, the results reveal unexpected dynamical behavior.

15 d switching functions or exhibit predictable dynamical behavior.

16 ested by an abrupt first-order transition in dynamical behaviors.

17 ract after their initiation, exhibiting rich dynamical behaviors.

18 mental demands by switching between distinct dynamical behaviors.

19 ion between synchronized and de-synchronized dynamical behaviors.

20 ata with time series that emphasize specific dynamical behaviors affects model performance.

21 presents an intriguing example of collective dynamical behavior among the simplest forms of life and

22 n a nonseasonal environment that relates the dynamical behavior and competitive abilities of plant po

23 role to play in linking these data with the dynamical behavior and function of these proteins.

24 ly how the range of interactions affects the dynamical behavior and the existence of MBL, especially

25 The dynamical behavior and the temperature dependence of the

26 ently, it has been impossible to study their dynamical behavior at industry-relevant temperatures.

27 Bacteria often inhabit and exhibit distinct dynamical behaviors at interfaces, but the physical mech

28 y the first complete characterization of the dynamical behavior by the mean fitness through time unde

29 the parameter space, where such interesting dynamical behavior can be observed.

30 orescence microscopy shows that a variety of dynamical behaviors can be reached by the combination of

31 To understand how certain dynamical behaviors can or cannot persist as the underly

32 ein, we critically examine and distill their dynamical behavior, collective interactions, and underly

33 aph algorithm, to characterize the interface dynamical behavior consequences upon inhibitor binding.

34 to study the computational capabilities and dynamical behavior contributed by synapses modulations a

35 perty resonant learning, as the new selected dynamical behaviors depend on the choice of the period o

36 Different dynamical behavior during the first 4 ns indicates that

37 pensive manufacturing, its unique parametric dynamical behavior enables extraordinary sensitivities a

38 This allows prediction of dynamical behavior even when the underlying reaction gra

39 e opens the way to tunable field-induced and dynamical behaviors.Exploring unconventional magnetism f

40 othesis that mitochondria manifest nonlinear dynamical behavior for efficiently regulating energy met

41 A variety of rich dynamical behavior has been uncovered, although usually

42 electron tomography and analysis of spindle dynamical behavior in living cells, we investigated the

43 d materials, opening avenues for engineering dynamical behavior in nanoelectronics.

44 This has important consequences for dynamical behavior in particular leading to a simultaneo

45 e delays on quantum coherence and excitation dynamical behavior in the time domain generally consider

46 peptides interact with each other and their dynamical behaviors in different homooligomeric states.

47 ular dynamic simulations to reveal conserved dynamical behaviors in four prokaryotic actin homologs:

48 exhibit characteristically distinct types of dynamical behaviors, in spite of identity of the oscilla

49 -activating kinase is sufficient to generate dynamical behaviors including bistability and limit cycl

50 We find a host of nonlinear dynamical behaviors including multistability, chaos, and

51 we show that a number of distinct classes of dynamical behaviors, including correlated fluctuations c

52 er systems offer a rich repertoire of useful dynamical behaviors, including the excitable dynamics al

53 to acquire precise binding site and binding dynamical behavior information.

54 astic responses are known to exhibit complex dynamical behaviors involving self-propelled dynamics of

55 This dynamical behavior is achieved by exploiting the tempera

56 ement between the experimental and simulated dynamical behavior is found, with spiral wave chimeras e

57 We demonstrate that this dynamical behavior is generic for various surface shapes

58 , we predict that it is a robust motor whose dynamical behavior is not compromised by reasonable pert

59 Our predicted lattice dynamical behavior is supported by coherent phonon spect

60 For films of intermediate thickness, the dynamical behavior is well predicted to leading order us

61 ver, at approximately 225 K, between the two dynamical behaviors known as fragile and strong, which i

62 ooled water exhibits fascinating and complex dynamical behavior, most notably dynamical heterogeneity

63 le-Zurek mechanism (QKZM) predicts universal dynamical behavior near the quantum phase transitions (Q

64 The static and dynamical behavior of a fluorescently labeled mutant of

65 ation (RACIPE), for interrogating the robust dynamical behavior of a gene regulatory circuit even wit

66 We studied the dynamical behavior of a mononucleosome under tension usi

67 ve techniques to characterize the structural/dynamical behavior of a pH-triggered switching mechanism

68 We studied the dynamical behavior of a two-species aquatic laboratory c

69 We study the dynamical behavior of a unit of three positive transcrip

70 The dynamical behavior of biomacromolecules is a fundamental

71 des the optical pulse (electron impact), the dynamical behavior of carriers manifests itself in a dar

72 Understanding the dynamical behavior of complex systems from their underly

73 lly detailed glimpse into the structural and dynamical behavior of double helical DNA over many times

74 A new development in the dynamical behavior of elementary quantum systems is the

75 ividual members of the network on the global dynamical behavior of LINE-1 was examined from a theoret

76 ermined the detailed molecular alignment and dynamical behavior of MAG2 in oriented lipid bilayers by

77 or other properties of real networks and the dynamical behavior of many complex systems.

78 erface, and this has a greater impact on the dynamical behavior of nanoconfined water than the actual

79 Here, we show that the collective dynamical behavior of networks of these neurons showcase

80 The qualitative dynamical behavior of our experimental system, that is,

81 interactions, and the "rules" governing the dynamical behavior of regulated components of the networ

82 We also compare the dynamical behavior of several simplified models of CDK r

83 The ability to concisely describe the dynamical behavior of soft materials through closed-form

84 robe changes in the nature and subnanosecond dynamical behavior of solvation waters that accompany pa

85 To characterize the dynamical behavior of the active process, we introduce a

86 The observed dynamical behavior of the arginine side-chains at this p

87 model we find that bistability is the major dynamical behavior of the CDK signaling network, and tha

88 tically), with the objective of matching the dynamical behavior of the cell (e.g., action potential s

89 bserved solvatochromic shift and the general dynamical behavior of the complex in water.

90 The dynamical behavior of the cortex is extremely complex, w

91 motion in live cells, revealing a wealth of dynamical behavior of the genomic material once believed

92 vides robust and testable predictions of the dynamical behavior of the HER4 mediated JAK-STAT pathway

93 at accurately describes a wide range of bulk dynamical behavior of the material.

94 t long-lasting sparks emerge as a collective dynamical behavior of the network of diffusively coupled

95 Does selection operate on the global dynamical behavior of the networks?

96 rmed state of the cell is at the core of the dynamical behavior of the positive feedback loop linking

97 The dynamical behavior of the probability flux correlation f

98 lectrostatic potential resulting from unique dynamical behavior of the solvation shells at the interf

99 pathway also becomes affected, changing the dynamical behavior of the system and the reaction kineti

100 The dynamical behavior of the system showed a tendency for o

101 drogens and carboxylate oxygens modulate the dynamical behavior of the system.

102 The functions of proteins depend on the dynamical behavior of their native states on a wide rang

103 We show how the dynamical behavior of this model depends on an entire se

104 ose a computational model to account for the dynamical behavior of this positive inflammatory feedbac

105 We explore the dynamical behavior of two anyons undergoing quantum walk

106 We studied the response profile and dynamical behavior of two populations of projection neur

107 Mechanistic models that describe the dynamical behaviors of biochemical systems are common in

108 ctivity between neurons generate the complex dynamical behaviors of brain circuits in health and dise

109 , whose aims are to (1) predict the emergent dynamical behaviors of highly heterogeneous systems in u

110 Overall, our studies show that the dynamical behaviors of motile bacteria at anisotropic LC

111 ic structure, explaining many of the unusual dynamical behaviors of the CENP-A nucleosome.

112 rowth could cause unexpected outcomes in the dynamical behaviors of the circuits.

113 eep CV restitution leads to more complicated dynamical behaviors of the system.

114 interplay between alpha and tau affects the dynamical behaviors of the system.

115 ions as well as mathematical analyses of the dynamical behaviors of various created networks.

116 voltage coupling combined with the nonlinear dynamical behaviors of voltage and Ca cycling play a key

117 The solvent dynamical behavior on the protein surface reveals signif

118 n rod photoreceptors (I(h)) confer different dynamical behavior onto the two types of neurons.

119 e(-)/ angstrom(2).s while exhibiting unusual dynamical behaviors pertaining to the lattice anharmonic

120 ference: binding site prediction and binding dynamical behavior prediction.

121 of our society generates qualitatively novel dynamical behavior, producing a new stable regime of cul

122 In the temporal domain, dynamical behaviors such as oscillations and pulses of p

123 Correlation of spindle architecture with dynamical behavior suggests that microtubule pairing is

124 ore realistic cases our model introduces new dynamical behavior that influences competitive outcomes.

125 viscosity and asymptotically approached the dynamical behavior that was previously observed in room

126 tigation unveils functional, structural, and dynamical behaviors that differentiate the evolved ances

127 We identify three typical dynamical behaviors that occur dependent on the geometri

128 hylesterification pattern attain the correct dynamical behavior to facilitate processive catalysis.

129 or's structure can cause the motor's typical dynamical behavior to reverse directions.

130 All three peptides exhibited unexpected dynamical behavior, undergoing a transition from an alph

131 elements, their integration generates novel dynamical behavior, whereas inputs affecting the same el

132 ests that Earth's climate system has complex dynamical behavior, with threshold-like adjustments (cri