ライフサイエンスコーパス: ever more

1 Combined with ever more abundant sequential data, we anticipate that t

2 ions, and with international travel becoming ever more accessible and affordable, the danger of trans

3 s, and much of the developments have pursued ever more accurate and dynamic robots, which thrive in i

4 e focus will understandably be on developing ever more accurate models, but successful translation to

5 e challenges in the field, aiming at getting ever more accurate views on these mechanisms, and as the

6 he experimental development of catalytically ever-more active platinum group metal (PGM)-free materia

7 n to the N-terminal region was observed with ever more aggregated states of Abeta peptide.

8 DL-cholesterol lowering matters, and whether ever more aggressive lipid-lowering provides a safe, lon

9 onditions on plant productivity are becoming ever more alarming in recent years in light of the incre

10 As genomic sequencing projects attempt ever more ambitious integration of genetic, molecular, a

11 Research consortia are attempting ever more ambitious science to better understand disease

12 This is becoming ever more apparent now that, with the increasing use of

13 It is becoming ever more apparent that 2D and 3D migration utilize the

14 oncology arena having been reached, they are ever more applicable.

15 P-MS methodology will pave a simple path for ever more applications of ICP-MS to the studies of quant

16 ld has revealed its tremendous importance in ever more aspects of physiological and pathological cell

17 With ever more bacteria coming under study, the question beco

18 of stimuli used to probe the cells, yielding ever more challenging conditions for extracting pattern

19 high rates of redundant isolation, making it ever more challenging to identify novel biologically int

20 stinguishing between bots and humans becomes ever more challenging.

21 ffect their functions is an issue that grows ever more compelling as human impacts on ecosystems incr

22 There are ever more compelling tools available for neuroscience re

23 al advances have allowed for the creation of ever more complete maps of targets of immune responses i

24 ing increasingly apparent with the advent of ever more complex and ambitious synthetic biology projec

25 d reliable tools to calibrate models against ever more complex and detailed data.

26 3D macromolecular structural data is growing ever more complex and plentiful in the wake of substanti

27 magnetic resonance (EPR) is being applied to ever more complex biological systems comprising multiple

28 me, and discuss how the field is approaching ever more complex biosynthetic opportunities.

29 diverse logic gates, enabling the design of ever more complex circuitry.

30 sts have enabled the community to synthesize ever more complex compounds by applying prior knowledge

31 ikewise, synthetic chemists are able to make ever more complex electrocatalysts with high levels of c

32 fidence in gas biofiltration efficacy grows, ever more complex malodorant and toxic molecules are ame

33 l enable the investigation of the physics of ever more complex many-body states using quantum dots.

34 explosion in population genomic data demands ever more complex modes of analysis, and increasingly, t

35 ments enable their application to understand ever more complex physiological phenomena, such as learn

36 le to molecule, and pathway to pathway in an ever more complex scheme of dysfunction.

37 s ongoing, promising the ability to simulate ever more complex signaling processes in the future.

38 s of analysis of force data have resulted in ever more complex systems being studied.

39 As researchers try to understand ever more complex systems, there is a continual need for

40 However, as o-phenylenes are integrated into ever more complex systems, we are reaching the limits of

41 determine the system topology, which is made ever more complex with increased dimensionality.

42 plays a role in preventing the evolution of ever more complicated sexual displays, because such disp

43 ember US presidential election, I had become ever more concerned that science has fallen victim to th

44 ogy with innovative technologies will become ever more critical in the search for new antibiotics and

45 r, the returns from tiling these multipliers ever more densely now diminish because signals must trav

46 utionary slow-downs as new species pack into ever more densely occupied regions of ecological niche s

47 ent of new techniques that have permitted an ever more detailed dissection of these repair mechanisms

48 tal and theoretical techniques are providing ever more detailed insights into how such collisions pro

49 hat we progress linearly, from conceptual to ever more detailed models.

50 sease modifying treatments to follow from an ever more detailed understanding of the molecular mechan

51 crobials, in the face of infections that are ever more difficult to treat arises.

52 he initial outbreak, making import screening ever more difficult.

53 lanet, rather than design them in pursuit of ever more economic growth.

54 m of medications, there is much to learn and ever more effective and safe therapies to develop.

55 sing knowledge and experience as a basis for ever more effective programmes.

56 romosomal abnormality to the introduction of ever more effective tyrosine kinase inhibitors is unprec

57 eomics and synthetic biology studies require ever more efficient and economical strategies to clone c

58 e most efforts focused on the development of ever-more efficient catalysts, a particular attention ha

59 As ecology and evolution become ever more entwined, many areas of ecological theory are

60 ogies continue to develop, they are becoming ever more essential for examining and modulating the rol

61 so-called diseases of affluence are becoming ever more evident, often alongside malnutrition.

62 to the evolution of host traits is becoming ever more evident.

63 rt research in many areas of biology becomes ever more expensive, Eve Marder worries that researchers

64 Chemists are achieving ever more exquisite control over the composition, size,

65 As we describe the immune system in ever more exquisite detail, we might find that no matter

66 But as space travel becomes ever more feasible in the twenty-first century, the heal

67 The growth of animal aquaculture requires ever more feed.

68 With extreme weather becoming ever more frequent due to global warming, it is anticipa

69 The study of these motifs highlights ever more genes that have complex regulatory dynamics.

70 try, these mathematical methods are becoming ever more important and are a powerful complementary met

71 important ways, and restoration will become ever more important as conservation efforts cannot keep

72 iocatalysts for C-H oxyfunctionalizations is ever more important in modern synthetic chemistry.

73 and informing conservation measures that are ever more important in the age of rapid global changes.

74 Saturated bicycles are becoming ever more important in the design and development of new

75 orary cardiovascular devices, it is becoming ever more important to clarify safety issues in regard t

76 tions for first-line and relapsed CLL, it is ever more important to develop sound rationale and strat

77 ns reductions and adequate adaptation become ever more important to ensure a safe and livable planet

78 y resources used in the United States, it is ever more important to evaluate the CH(4) emissions inve

79 atment decisions, this knowledge will become ever more important to optimize our patients' cardiovasc

80 over individual experts in many tasks, it is ever more important to understand the determinants of gr

81 Given that ML is likely to become an ever more important tool in medicine, we believe that it

82 ficiency in artificial self-assembly becomes ever more important.

83 on genetic disease and child health becomes ever more important.

84 s exhibiting fast hydrogen transport becomes ever more important.

85 ory compromise in these patients is becoming ever more important.

86 approaches to drug development are becoming ever more important.

87 is emerging area develops, it will become an ever-more important design strategy for selectivity cont

88 As such their synthesis has become an ever-more important goal in synthetic chemistry as the d

89 re of great importance to cell function into ever more incisive insights into mechanisms driven by pr

90 work suggest that bioinformatics will become ever more indispensable without necessarily becoming mor

91 eaning of life, cell biologists are becoming ever more interested in the meaning of death.

92 n aging patient population in the context of ever more limited resources.

93 t decade, we have witnessed the emergence of ever more machine learning applications in all aspects o

94 od jobs and, ultimately, to good lives in an ever-more meritocratic and unequal society.

95 As biological inquiry produces ever more network data, such as protein-protein interact

96 n acidity highlights the pitfall of pursuing ever more nucleophilic catalysts without regard for cata

97 t maintain the necessary focus to achieve an ever-more operational understanding of all the molecular

98 wing increasingly feasible as the genomes of ever more organisms are sequenced.

99 onsiveness and cancer survival in humans and ever more phenotypes of gammadelta T cell-deficient mice

100 Although data are ever more plentiful and powerful analysis methods are av

101 scular coupling in awake rodents is becoming ever more popular due, in part, to our increasing knowle

102 ATIONS: Spreadsheet-like tabular formats are ever more popular in the biomedical field as a mean for

103 Top-down proteomics approaches are becoming ever more popular, due to the advantages offered by know

104 us of pharmaceutical companies is to develop ever more potent and specific tyrosine kinases.

105 ources, utilisation of the growing number of ever more potent laser-plasma-accelerator facilities wor

106 living systems, reconstitution is poised for ever more precise and informative understanding of membr

107 he last decades, spurring the development of ever more precise and ingenious characterization techniq

108 vapor deposition (CVD), how each is allowing ever more precise control of nitrogen incorporation in t

109 The need for ever more precise RLGs has fuelled research activities a

110 Low-coverage imputation is becoming ever more present in ancient DNA (aDNA) studies.

111 ccumulation of toxic metals in seafood is an ever more pressing concern.

112 mparable to that of human bone has become an ever more pressing subject in the area of advanced biome

113 This problem is becoming ever more pressing with the increased availability of pa

114 e clinician in caring for patients with this ever more prevalent and complex group of diseases and ha

115 ty ages, age-related hearing deficits become ever more prevalent.

116 kage from the natural gas system have become ever more prominent in recent years.

117 With ever more promising results from the clinic, the future

118 nic redox flow batteries (oRFBs), has become ever more pronounced.

119 ince that momentous achievement have brought ever more rapid innovation and advancement in diabetes r

120 emical toxicology, as chemists deal with the ever more rapid turnaround of testing data that influenc

121 is, new methods for the effective use of the ever more readily available and abundant -omics data (i.

122 mixing models suggest that birds have grown ever more reliant on nutrient-poor squid and invertebrat

123 mes in an effort to prevent the emergence of ever more resistant M. genitalium infections.

124 ; to "deepen" this integration to provide an ever more seamless linkage between equivalent components

125 sons has been advanced by the development of ever more sensitive and robust instrumentation.

126 ials has opened new opportunities to develop ever more sensitive sensors owing to their high surface-

127 With the advent of ever-more-sensitive live-imaging and quantitative approa

128 h this strategy, a regulatory module becomes ever more significant as more relevant gene sets are for

129 Despite advances in reproducing ever more sophisticated biology in these systems, there

130 ing (ML) techniques and their application to ever more sophisticated OSC scientific and engineering c

131 the tools used to analyze these data become ever more sophisticated.

132 d knowledge of HNSCC genetics, combined with ever-more-sophisticated animal models and newer drug tar

133 The desire to collect ever more spatially, spectrally and temporally detailed

134 data sets containing many types of data from ever more species.

135 With the design of ever more specific epigenetic drugs, we may improve our

136 In this arena, the quest for ever more step-economical and efficient methods and stra

137 challenges, placing an increasing burden on ever more strained health systems.

138 Ever more stringent regulations on greenhouse gas emissi

139 Targeting ever more structurally complex, dynamic, and functional

140 ting hypotheses and making chirality control ever more tantalizing, yet leaving its understanding elu

141 As ever more tests for bovine tuberculosis (BTB) are carrie

142 intensivists we do have are being stretched ever more thin.

143 As data-enabled practices become ever more ubiquitous, chemists must consider the organiz

144 As consumer microelectronics become ever more ubiquitous, there are growing concerns about t

145 Ever more unexpected roles for the LDL receptor gene fam

146 anticipating likely human responses becomes ever more urgent.

147 The difluoroboron B-diketonate ring is ever more used for creating bright polymethine-type fluo

148 aining in popularity as researchers discover ever more uses for their unbiased and broad feature sets

149 ty wild animals present, information that is ever more vital in the context of rapid global environme

150 databases continues to increase, it becomes ever more vital to develop methods that enable us to und

151 consistent language for human genes becomes ever more vital.

152 eening of cardiovascular disease is becoming ever more widely used and is an independent prognostic i