ライフサイエンスコーパス: biophysical process

1 ial to provide fundamental insight into this biophysical process.

2 orresponding to timing of cells subject to a biophysical process.

3 eering, and mimicking lipid membrane-related biophysical processes.

4 itly linking sediment transport to governing biophysical processes.

5 fundamental to a broad range of chemical and biophysical processes.

6 ins is a crucial step toward describing many biophysical processes.

7 traps, but these rarely account for complex biophysical processes.

8 hanistic models based on a representation of biophysical processes.

9 tial to cool the Earth's surface by altering biophysical processes.

10 considered to be the most robust records of biophysical processes.

11 ed a common approach to model biochemical or biophysical processes.

12 onal states but also for probing fundamental biophysical processes.

13 l previously underexplored physiological and biophysical processes.

14 the functions used in the fit to underlying biophysical processes.

15 h to study previously unobservable ultrafast biophysical processes.

16 search tool to mechanistically study diverse biophysical processes.

17 ons on the classification ability of generic biophysical processes.

18 and can be actively relaxed by a variety of biophysical processes.

19 red by potential coeffecting biochemical and biophysical processes.

20 The third will be based on energy and biophysical processes.

21 t productivity, as well as physiological and biophysical processes.

22 n can cool or warm the local climate through biophysical processes.

23 g exists regarding how cells might integrate biophysical processes across these disparate timescales

24 To understand how biophysical processes affect the speed of the clock, one

25 res in combination with complex physical and biophysical processes affecting variations in hydroclima

26 (MDR) can be attributed to several different biophysical processes, among them increased drug efflux.

27 Simulations of biophysical process and empirical models suggest that Du

28 fective as model membranes for investigating biophysical processes and in development of sensor and a

29 ts, allowing a wide range of biochemical and biophysical processes and interactions to be studied at

30 To better understand the governing biophysical processes and their relative importance, it

31 Thus, distinct biophysical processes are shown to integrate for overall

32 Since all biophysical processes are temperature dependent, this in

33 and biochemical mechanisms underlying these biophysical processes are unknown.

34 Biophysical processes associated with interactions betwe

35 etter understanding of the global picture of biophysical processes at the boundary between the ocean

36 nonlinear, threshold effects on the rates of biophysical processes at the ecosystem level.

37 re a better mechanistic understanding of the biophysical processes at the nanoscale level that determ

38 , L-form proliferation is driven by a simple biophysical process based on an increased ratio of surfa

39 smon rulers can be used to measure dynamical biophysical processes by applying the ruler to a system

40 Our findings show that simple biophysical processes could have supported efficient cel

41 lity studies are necessary for understanding biophysical processes, developing models for cell locomo

42 n of an increasing number of biochemical and biophysical processes, from the basic mechanical propert

43 Here, we characterize the biophysical processes governing the localized recruitmen

44 Chefs and scientists exploring biophysical processes have given rise to molecular gastr

45 Anthropological and biophysical processes have shaped livestock genomes over

46 fying how changes in density affect rates of biophysical processes, hence ecosystem function.

47 of the Anthropocene as a socio-political and biophysical process, highlighting the need for higher-re

48 NA constitutes a fundamental biochemical and biophysical process in all living organisms.

49 ctions make C-type inactivation an important biophysical process in determining such physiologically

50 d relaxation in a monolayer is a fundamental biophysical process in development and homeostasis.

51 uid-liquid phase separation is a fundamental biophysical process in which biopolymers, such as protei

52 umbers, derived from the equations governing biophysical processes in FTUs, are proposed as metrics f

53 le insights and high-resolution views of the biophysical processes in plants, such as photosynthesis,

54 Sensing of biophysical processes in the brain is a particularly att

55 daptation may have implications for multiple biophysical processes in the cell.

56 ut may also serve as indicators in a host of biophysical processes, including the propensities of IDP

57 for vertical growth dynamics based on basic biophysical processes inside a biofilm: diffusion and co

58 o reliably integrate the molecular detail of biophysical process into the system behavior.

59 chial epithelia have established many of the biophysical processes involved in airway surface liquid

60 s, but precise quantitative knowledge of the biophysical processes involved in cell migration is limi

61 To elucidate further the biophysical processes involved in conversion of insolubl

62 integrative computational framework to model biophysical processes involved in viral gene delivery.

63 of apoptosis, a better understanding of the biophysical processes involved may lead to new avenues f

64 Non-equilibrium driving of biophysical processes is believed to enable their robust

65 is tightly linked to important molecular and biophysical processes, it is critical to understand how

66 is in southern Amazonia, changes in internal biophysical processes, light-harvesting adaptations (e.g

67 roteins surfaces, fundamental biological and biophysical processes may be studied and even modulated

68 l in the model predictions; without it other biophysical processes may overwhelm the albedo effect to

69 ling of biological domains and simulation of biophysical processes occurring in them can help inform

70 f ER residents thus derives in part from the biophysical process of cargo enrichment into a constrain

71 he middle lamellae is augmented by an active biophysical process of cell curvature driven by the pola

72 lies termed biomolecular condensates via the biophysical process of hyperosmotic phase separation (HO

73 e perform a causal test of the idea that the biophysical process of synaptic integration underlies th

74 omputer model was developed to integrate the biophysical processes of oxidative phosphorylation and R

75 ently for all three GHGs with respect to the biophysical processes of production, consumption, and di

76 ral proteins can undergo phase separation: a biophysical process often related to the partitioning of

77 It is attributed to a number of possible biophysical processes, one of them being increased drug

78 on poroelastic dynamics to study two coupled biophysical processes-propagation of pressure changes an

79 se changes on cancer cell adhesion and other biophysical processes remain limited.

80 tures during interphase, but the responsible biophysical processes remain unclear.

81 Organ formation is an inherently biophysical process, requiring large-scale tissue deform

82 This discrepancy might be caused by biophysical processes such as extracellular matrix remod

83 Many biophysical processes such as insertion of proteins into

84 While widely used to model various biophysical processes, such as protein folding and aggre

85 Neuromodulation can be defined as a biophysical process that serves to modify-or modulate-th

86 he geometry of conical stromatolites and the biophysical processes that control their growth.

87 escription of gene regulation as a system of biophysical processes that extend from specific protein-

88 how these pathways integrate to produce the biophysical processes that govern locomotion.

89 The biophysical processes that lead to the cellular reorient

90 derstanding of intracellular biochemical and biophysical processes that may direct the cell's commitm

91 communities is critical for supporting many biophysical processes that provide ecosystem services th

92 ng space for humanity based on the intrinsic biophysical processes that regulate the stability of the

93 n success, and why direct measurement of the biophysical processes that support ecosystem services is

94 es air temperature and soil moisture through biophysical processes, thereby influencing the occurrenc

95 an undergo liquid-liquid phase separation, a biophysical process thought to underlie the formation of

96 We attributed these threshold responses in biophysical processes to intraspecific competition for l

97 s, and therefore bacteria must rely on basic biophysical processes to localize proteins within their

98 lectrical transduction in the inner ear is a biophysical process underlying the senses of hearing and

99 e consider a set of equations describing the biophysical processes underlying rabbit Purkinje electro

100 living relatives of animals, we quantify the biophysical processes underlying the morphogenesis of ro

101 eful surrogate modeling approach for complex biophysical processes, where high-fidelity mechanistic m

102 development, and many other biochemical and biophysical processes which constitute fundamentals of l