ライフサイエンスコーパス: biological phenomena

1 tic nucleus and is the substrate for diverse biological phenomena.

2 al--which differ in their representations of biological phenomena.

3 of executable computer algorithms that mimic biological phenomena.

4 lavin cofactor that is involved in a host of biological phenomena.

5 g frames exemplify some of the most striking biological phenomena.

6 that is now known to underlie many distinct biological phenomena.

7 tochastic behavior that is essential to many biological phenomena.

8 l spatially explicit mathematical models for biological phenomena.

9 -absorbing proteins involved in a variety of biological phenomena.

10 as a qualitative mathematical model of some biological phenomena.

11 is critical to the understanding of complex biological phenomena.

12 ly of secreted factors implicated in diverse biological phenomena.

13 is a central goal in mechanistic studies of biological phenomena.

14 uent initiation of transcription are complex biological phenomena.

15 Macromolecular interactions define many biological phenomena.

16 mulated considerable interest regarding this biological phenomena.

17 sical forces driving a range of chemical and biological phenomena.

18 itro and in vivo study of these classic cell biological phenomena.

19 of prokaryotes, and control a wide range of biological phenomena.

20 enables the prediction of yet-to-be observed biological phenomena.

21 ive understanding of physical, chemical, and biological phenomena.

22 logies has brought new insights into complex biological phenomena.

23 vided a revolutionary approach to dissecting biological phenomena.

24 d a wide spectrum of physical, chemical, and biological phenomena.

25 alent macromolecular complexes controls many biological phenomena.

26 al product synthesis in the discovery of new biological phenomena.

27 test, document and use their code to explore biological phenomena.

28 is a powerful tool for understanding complex biological phenomena.

29 technologies for the quantitative imaging of biological phenomena.

30 h for identifying genes essential to defined biological phenomena.

31 ut the phenotype, is widely used to describe biological phenomena.

32 ethylation has been linked to many important biological phenomena.

33 crucial step in understanding the underlying biological phenomena.

34 with characteristics that are closer to the biological phenomena.

35 g measurements of previously uncharacterized biological phenomena.

36 ractions are of utmost importance in several biological phenomena.

37 elationships to each other and to underlying biological phenomena.

38 sequence-specific manner, to mediate complex biological phenomena.

39 d in a wide range of physical, chemical, and biological phenomena.

40 r physics as well as in the visualization of biological phenomena.

41 solution enable new understanding of complex biological phenomena.

42 tworks of biochemical processes shape larger biological phenomena.

43 ' conjunctions that account for the observed biological phenomena.

44 ong animal species and that regulate diverse biological phenomena.

45 in order to describe and understand complex biological phenomena.

46 terials can allow label-free observations of biological phenomena.

47 odel systems for the study of membrane-based biological phenomena.

48 Despite its importance in biological phenomena, a comprehensive understanding of t

49 ditionally, specific limitations of assaying biological phenomena and comparing fundamentally differe

50 es, which play an important role in numerous biological phenomena and make them important materials f

51 ) are highly effective in describing complex biological phenomena and processes, such as cell differe

52 of the mechanisms that underlie interesting biological phenomena and provide novel insights into the

53 ingly prominent role in the discovery of new biological phenomena and the elucidation of molecular me

54 experimentation in discovering RNA-directed biological phenomena and the importance of robust assay

55 Programmed cell death regulates a number of biological phenomena, and the apoptotic signal must itse

56 uccessfully used to understand other complex biological phenomena, are beginning to reveal important

57 ice, while paramount for understanding basic biological phenomena, are limited in modeling complex di

58 y essential biological roles in such diverse biological phenomena as cellular adhesion, molecular rec

59 l models of systems biology describe dynamic biological phenomena as solutions to ordinary differenti

60 nown to play important roles in such diverse biological phenomena as surface adhesion, motility, and

61 Fluorescence nanoscopy enables the study of biological phenomena at nanometer scale spatial resoluti

62 lent vertebrate model for in vivo imaging of biological phenomena at subcellular, cellular and system

63 Linking biological phenomena between vastly different spatiotemp

64 Sleep is one of the most pervasive biological phenomena, but one whose function remains elu

65 ays can accurately reproduce a wide range of biological phenomena by reducing detailed chemical kinet

66 a single format onto which a broad range of biological phenomena can be projected for high-throughpu

67 e more meaningful hypotheses to describe the biological phenomena captured by high throughput experim

68 ived in the explanation of a wide variety of biological phenomena, chiefly the evolution of biologica

69 metabolomic approaches in elucidating novel biological phenomena, especially when coupled to validat

70 o be standardized to take account of dynamic biological phenomena evolving early after the index isch

71 rbal hypotheses meant to explain why certain biological phenomena exist.

72 Taxa and biological phenomena for which our current understanding

73 ots are very important to intuitively reveal biological phenomena from capture-based sequencing data

74 feature of life that affects a wide range of biological phenomena, from developmental plasticity to t

75 A variety of biological phenomena, from disease progression to stem c

76 cessfully explained the organization of many biological phenomena, from the physiology of sensory rec

77 ding and unfolding are coupled to a range of biological phenomena, from the regulation of cellular ac

78 l biomaterials to study complex and emergent biological phenomena has also thrived rapidly in recent

79 n certain histone modifications and distinct biological phenomena have now been established, concepts

80 conceptual parallels between the respective biological phenomena, highlighting important interrelati

81 d have been implicated in regulating various biological phenomena; however, the detailed signaling me

82 icroarrays allow researchers to characterize biological phenomena in a high-throughput fashion but ar

83 Perspective, I provide a broad view of cell biological phenomena in bacteria, the technical challeng

84 master equation find use in the modeling of biological phenomena in cells, where they provide more a

85 This longitudinal study of emergent biological phenomena in complex microenvironments repres

86 nd develop computational approaches to model biological phenomena in four dimensions.

87 ntial for exploring underlying mechanisms of biological phenomena in many areas of biomedical researc

88 logical measurement is to capture underlying biological phenomena in numerical form.

89 tunities for unbiased investigation of novel biological phenomena in situ.

90 Consciousness thus differs from other biological phenomena in that it has a subjective or firs

91 g for the investigation of several important biological phenomena in this organism.

92 hod should be valuable for rapidly profiling biological phenomena in vivo.

93 cell migration, which is central to diverse biological phenomena including angiogenesis, wound heali

94 lasmic polyadenylation is important for many biological phenomena including cell cycle progression, m

95 cascade that has been implicated in multiple biological phenomena including innate immunity and the p

96 h amyloid fibrils is related to a variety of biological phenomena, including a number of human neurod

97 bination is responsible for a broad range of biological phenomena, including DNA inversion, resolutio

98 implicated in the regulation of a variety of biological phenomena, including endogenous lectin recogn

99 the molecular mechanisms that underlie many biological phenomena, including protein folding and enzy

100 s may shed light on a variety of fundamental biological phenomena, including the evolution of sex, th

101 cascade that has been implicated in multiple biological phenomena, including the pathogenesis of some

102 Many biological phenomena involve the binding of proteins to

103 of genes into a better understanding of the biological phenomena involved.

104 evelopment, and the models may also apply to biological phenomena involving propagation through tethe

105 g new insights into the intricate details of biological phenomena involving proton translocation.

106 We show that the study of complex biological phenomena like HRV requires a framework which

107 We show that these methods uncover disparate biological phenomena: long-range interactions between te

108 common structural link between two important biological phenomena, microtubule dynamic instability an

109 smembrane proteins is central to a number of biological phenomena, notably the gating of stretch acti

110 Aging and limited life span are fundamental biological phenomena observed in a variety of species [1

111 A better understanding of the biological phenomena observed in cells requires the crea

112 All biological phenomena occurring at different levels of or

113 derations: the lineal scope encompassing the biological phenomena of interest, and the optimal specie

114 nvolved in various genetic, biochemical, and biological phenomena of the virus.

115 Like many other complex biological phenomena, pain is starting to be studied at

116 Few biological phenomena provide such an elegant and straigh

117 luding DinB, have been implicated in diverse biological phenomena ranging from adaptive mutagenesis i

118 me that is essential for a number of diverse biological phenomena ranging from antibody diversificati

119 Cooperative interactions are key to diverse biological phenomena ranging from multicellularity to mu

120 n implicated in a wide spectrum of important biological phenomena, ranging from early organismal deve

121 compounds that have been used to interrogate biological phenomena: reactive oxygen species (ROS) sens

122 Many analyses for the detection of biological phenomena rely on a multiple sequence alignme

123 To gain an understanding of broader biological phenomena, researchers have until recently be

124 of protein folding and its relevance to some biological phenomena, site-specific information on the s

125 y binding provides the basis for fundamental biological phenomena such as allosterism, signal transdu

126 d transcriptome data to characterize various biological phenomena such as cis-regulatory variation an

127 (TNs) is essential for understanding complex biological phenomena such as development, disease, and e

128 Directed cell motility is at the basis of biological phenomena such as development, wound healing,

129 specially problematic when accommodating for biological phenomena such as horizontal gene transfer, i

130 been shown to be involved in a wide range of biological phenomena such as protein half-life regulatio

131 aneous multichannel measurements of distinct biological phenomena such as receptor tyrosine kinase ex

132 nia as a model system for research on unique biological phenomena such as small RNAs, symbiosis, self

133 trices offers a chemical strategy to control biological phenomena such as stem cell differentiation a

134 ells, involved in numerous calcium-regulated biological phenomena, such as synaptic plasticity, muscl

135 s with precision, (iii) quickly identify the biological phenomena that a given curated model or model

136 the more recent push to expand the scope of biological phenomena that can be monitored using these r

137 ne transfer constitute examples of pervasive biological phenomena that cannot be captured by tree-lik

138 Among the biological phenomena that fall within the emerging field

139 analyze the biochemical, mass transfer, and biological phenomena that govern the system.

140 Our model may thus be applied to biological phenomena that involve DNA-binding proteins,

141 Two significant biological phenomena that involve stem cells are the ine

142 ning to offer new insights into higher-level biological phenomena that previously occupied the realm

143 tion thus promises new insights into complex biological phenomena that require 4D subcellular spatiot

144 merous other groups studying a wide range of biological phenomena, the roles of Cdc42p in intracellul

145 signal transduction of an enormous array of biological phenomena, thereby serving to modulate at a m

146 of epigenetics from a collection of curious biological phenomena to a functionally dissected researc

147 goal of any experiment is to understand the biological phenomena underlying the condition investigat

148 Partial hepatectomy triggers a variety of biological phenomena, which culminate in regeneration of

149 Understanding actin-based biological phenomena will depend on identifying the part

150 ethod before relating chromatin structure to biological phenomena will ensure that hypothesized corre

151 t near-atomic resolution (3-4.5A), providing biological phenomena with molecular descriptions.

152 ed us understand macromolecular assembly and biological phenomena, yet few attempts have been made to