ライフサイエンスコーパス: biological science

1 ciences) and new phenomena (largely from the biological sciences).

2 ingly more and more important part of modern biological science.

3 tems are common in all areas of physical and biological science.

4 d patterns in microorganisms, the bedrock of biological science.

5 es for diverse applications in materials and biological science.

6 ology and parallel advances in all fields of biological science.

7 ntial applications of S-UEM in materials and biological science.

8 tion that are essential tools in the rest of biological science.

9 t research tool for the advancement of basic biological sciences.

10 laboratory approaches in many fields of the biological sciences.

11 mpler formalism is the underlying impetus of biological sciences.

12 ing widespread applications in materials and biological sciences.

13 f temperature are needed in the chemical and biological sciences.

14 few years have seen a profound revolution in biological sciences.

15 olutionary role in areas of the physical and biological sciences.

16 y an exciting time in the development of the biological sciences.

17 ications for research communities across the biological sciences.

18 in research on low-rank matrix completion in biological sciences.

19 tions of biomolecules are fundamental to the biological sciences.

20 g the questions and scope of research in the biological sciences.

21 ntial as a universal tool for DNA writing in biological sciences.

22 of the most widely utilized processes in the biological sciences.

23 (PPGs) are extensively used in chemical and biological sciences.

24 ly played a vital role in the advancement of biological sciences.

25 s has important implications in physical and biological sciences.

26 by integrating both population and molecular biological sciences.

27 and thereby may lead to advances across the biological sciences.

28 e a useful tool in numerous areas across the biological sciences.

29 ve already made a substantial imprint in the biological sciences.

30 erformed by instructors with basic skills in biological sciences.

31 roader curricular transformation in teaching biological sciences.

32 of zoos as public engagement centres for the biological sciences.

33 component in the area of pharmaceutical and biological sciences.

34 st change but may now hamper progress in the biological sciences.

35 look on future applications in materials and biological sciences.

36 to the establishment of key concepts in the biological sciences.

37 sical chemistry, materials sciences, and the biological sciences.

38 el system for several disciplines within the biological sciences.

39 ses is one of the most important aims of the biological sciences.

40 hem for graduate and professional careers in biological sciences.

41 robes have become indispensable tools in the biological sciences.

42 ally intelligent' service customized for the biological sciences.

43 found application in nearly every branch of biological sciences.

44 ement of methods that are widely used in the biological sciences.

45 bricated systems for use in the chemical and biological sciences.

46 that can be carried out in the chemical and biological sciences.

47 at have had a profound impact on research in biological sciences.

48 ospects for application in environmental and biological sciences 5 have been utilized to detect Hg(2+

49 Latin name but now it comes as a new day for biological science-a welcome era in which a phenomenon a

50 en separately developed in both physical and biological science, although they share some basic conce

51 ence Imaging (FI) is a powerful technique in biological science and clinical medicine.

52 tal challenges is of fundamental interest in biological science and engineering.

53 age analysis program extensively used in the biological sciences and beyond.

54 ectrolyte solutions is crucial for advancing biological sciences and biotechnology.

55 e ethics education and its evaluation in the biological sciences and medicine and describe the previo

56 enty-first century heralds a new era for the biological sciences and medicine.

57 with the greatest likely impact on both the biological sciences and the biotechnology industry will

58 arenas spanning chemistry, material science, biological science, and medical industries.

59 ng Twitter to convey our excitement with the biological sciences, and discovered a new means to contr

60 Perhaps paradoxically, we argue that the biological sciences are "data-limited".

61 creased attention as more researchers in the biological sciences are turning to non-invasive imaging

62 lity and relevance in chemical, physical and biological sciences, are a subclass of polyoxometalates

63 partment of Plant Biology and a professor of Biological Sciences at Stanford University.

64 ins and culminating in a faculty position in biological sciences at the University of Southern Califo

65 s science and has found many applications in biological sciences but has been limited in use in visio

66 " and "omics" as the hottest buzzword in the biological sciences, but is there any substance behind t

67 ese days that theory leads experiment in the biological sciences, but it still happens.

68 be designed and built-is helping to advance biological sciences by motivating and equipping efforts

69 aws upon services developed specifically for biological sciences, collectively referred to as 'taxono

70 Many important data in current biological science comprise hundreds, thousands or more

71 e engineering, the majority of life sciences/biological sciences courses continue to rely on the trad

72 across a wide range of disciplines, from the biological sciences, device engineering, and materials p

73 vey of 704 National Science Foundation (NSF) Biological Sciences Directorate principal investigators

74 nd their value as model organisms across the biological sciences (Drosophila melanogaster).

75 ication to the archaeological, forensic, and biological sciences, enabling the mapping of "unseen" co

76 ne expression is crucial in diverse areas of biological science, engineering, and medicine.

77 es continue to have a major impact on modern biological sciences, especially with the growth of multi

78 the world to the most fundamental concept in biological sciences - evolution.

79 for structural analysis in both physical and biological sciences for many decades, in which 3D object

80 Modern biological science generates a vast amount of data, the

81 uld be of broad significance to physical and biological sciences given the popularity of fluorescence

82 The practice of biological science has changed dramatically since mid-ce

83 The use of bioinformatics in the biological sciences has brought about a change in the wa

84 In the past several decades, biological sciences have been revolutionized by their in

85 led to deal realistically with one huge gap; biological sciences have never been given high priority.

86 In recent years, the biological sciences have seen a surge in the development

87 hrenia and specialists in other areas of the biological sciences in a workshop aimed at promoting the

88 Columbia disaster, flight opportunities for biological sciences in shuttle spacelabs and in Space St

89 ociety prizes the rapid translation of basic biological science into ways to prevent human illness.

90 gous to the "systems approaches" used in the biological sciences is a necessary step in this evolutio

91 Fluorescence imaging in biological sciences is hindered by significant depth-dep

92 rns underlying PNAS research articles in the Biological Sciences is only slightly larger than the num

93 NMR is hugely important in the physical and biological sciences, it also plays a vital role in medic

94 To make the biological sciences more quantitative, we believe a two-

95 -enhanced fluorescence in the analytical and biological sciences, our findings will serve as a useful

96 Computing has revolutionized the biological sciences over the past several decades, such

97 ent) essay from last year, "Diversifying the Biological Sciences: Past Efforts and Future Challenges"

98 t and promising prospects for application in biological sciences probe 1 has been utilized to detect

99 atural selection, the unifying theory of all biological sciences, provides a basis for understanding

100 uld be of broad significance in physical and biological science research that involves photon/matter

101 Medical Research Council, Biotechnology and Biological Sciences Research Council, National Institute

102 h Council, Wellcome Trust, Biotechnology and Biological Sciences Research Council, UK National Instit

103 ortant developments had a profound impact in biological sciences since they triggered the development

104 on has entered the limelight of chemical and biological sciences, since, by appending small molecules

105 ield classifications into physical sciences, biological sciences, social sciences, and further subtop

106 sor based detection tools, holds promise for biological science studies.

107 ion for use in the physical, information and biological sciences that is stable at room temperature a

108 ce of conceptual debates in the 20th century biological sciences, the poles of each pair came to be s

109 In the biological sciences, the use of core-shell quantum dots

110 ation to move microarray research from basic biological sciences to clinical applications.

111 fundamental principles from the physical and biological sciences to explain certain cancer behaviors

112 tu hybridization methods are used across the biological sciences to map mRNA expression within intact

113 Data sharing is important in the biological sciences to prevent duplication of effort, to

114 ication in many diverse fields, ranging from biological sciences to security.

115 f the framework to be outlined integrate the biological science underlying modern genetics and the po

116 Focusing on biological sciences, we explore an internal soft-classif

117 al for understanding cellular behaviours for biological sciences, where is used to image and track or

118 a robust method for imaging in materials and biological science, while its single-shot capability wil

119 ted to discuss the state of diversity in the biological sciences with some recommendations for moving

120 f fluorescence has become commonplace in the biological sciences, with many studies utilizing probes