ライフサイエンスコーパス: biological species

1 ersity as opposed to natural groupings (e.g. biological species).

2 high-quality measurements of these important biological species.

3 r structural characterization of anisotropic biological species.

4 method of production, and 93.5% according to biological species.

5 portantly can degrade biomolecules and other biological species.

6 changes detectable in the fossil record and biological species.

7 n the presence of various inorganic ions and biological species.

8 dduct formation, fragmentation, or different biological species.

9 rmine nanoscale distances within chemical or biological species.

10 erning the fundamental behavior of important biological species.

11 ive recognition of a variety of chemical and biological species.

12 multivariate, continuously valued data from biological species.

13 and other ultrahigh-vacuum (UHV) analyses of biological species.

14 o reproductive isolation, a key attribute of biological species.

15 stitutions are sufficient to result in a new biological species.

16 icellular life, form reproductively isolated biological species.

17 a platform for the analysis of chemical and biological species.

18 widely explored for the analysis of chemical/biological species.

19 RNAs from RNA-Seq datasets of any sequenced biological species.

20 rides and glycoconjugates in a wide range of biological species.

21 Directed transport of biological species across the surface of a substrate is

22 res and, secondly, for the immobilization of biological species aiming biosensing purposes.

23 the full-scale problem of integration across biological species and data types.

24 a template to study the interactions between biological species and electronics.

25 ificant temperature rises, which can degrade biological species, and hence, ACET may become impractic

26 recognized the hierarchical organization of biological species, and Mendeleev recognized the periodi

27 e transport and reactions of 10 chemical and biological species are incorporated using a system of co

28 esonance Raman scattering (SERRS) spectra of biological species are often different from their resona

29 n common mustard containing foodstuffs these biological species are present in very low amounts.

30 Understanding how biological species arise is critical for understanding t

31 Speciation, the process by which new biological species arise, involves the evolution of repr

32 Streptochilus globigerus belongs to the same biological species as the benthic Bolivina variabilis, a

33 emerging nanosensor technology of important biological species as well as future perspectives of the

34 identify some taxa as belonging to the same biological species as well as to confirm hidden cryptic

35 ttention, which allows probing topography of biological species at real space under physiological env

36 nterbreed, confirming that they are a single biological species called SSA1.

37 In plants and animals, new biological species clearly have arisen as a byproduct of

38 A recent criticism that the biological species concept (BSC) unduly neglects phyloge

39 We discuss our results in light of the biological species concept applied to viruses.

40 The section defies characterization with the biological species concept due to interspecies hybridiza

41 us the basis for recent efforts to apply the Biological Species Concept in prokaryote systematics and

42 gence between populations, according to the "biological species concept" of Mayr.

43 Based on the biological species concept, two species are considered d

44 on are commonly confused under the name "the biological species concept," they are more or less clear

45 olation and, thus, two species following the biological species concept.

46 re poorly understood, but are central to the biological species concept.

47 onstrating that these microorganisms fit the biological species concept.

48 ion clusters in a manner consistent with the biological species concept.

49 c exchange is the foundation for the general biological species concept.

50 there are "species" defined according to the biological species concept.

51 the specific status of species based on the biological species concept.

52 me detection of a wide range of chemical and biological species could be exploited in array-based scr

53 2) highland plateau and established distinct biological species despite incomplete genetic isolation.

54 ody size confers some intrinsic advantage to biological species has been debated for centuries.

55 e applications of SiNW-FETs for detection of biological species have been described in several public

56 Unlike most other biological species, humans can use cultural innovations

57 sis, (iii) detection of diluted molecules or biological species in a large real life environmental sa

58 lated based on the absolute number of unique biological species in each (composite) food and drink.

59 Competition between biological species in marine environments is affected by

60 volutionary") path; the number of different (biological) species in the cluster has order n; the expe

61 teriosis, the geographical origin of diverse biological species including humans and proteomic data t

62 show any cross-reactivity with 64 different biological species, including various members of the Bra

63 Gene flow between biological species is a common and often adaptive evolut

64 Reproductive isolation between biological species is characterized by Haldane's rule, w

65 a variety of organic chemicals, while these biological species may show different sensitivities to d

66 biquitous environmental toxin with which all biological species must cope.

67 tes, comprise one morphological species, one biological species of high sexual intercompatibility, an

68 a better understanding of the most abundant biological species on Earth.

69 evolutionary paths; the number of different (biological) species on the "giant" component has at leas

70 We focus on mineral dusts, biological species (pollen, bacteria, fungal spores and

71 duction mechanism, as well as to the type of biological species present.

72 for ePlant is freely available for any other biological species research.

73 Biological species routinely collaborate for their mutua

74 sally accepted principles for deciding which biological species should be accepted when there are alt

75 solation, selective analytical separation of biological species, sorting, concentration, positioning,

76 Similar to biological species such as Aplysia, habituation and sens

77 rge differences between such closely related biological species suggests new possibilities for the se

78 ectrical sensors for the direct detection of biological species thanks to their high surface to volum

79 s exploit the diverse chemical reactivity of biological species to enable the development of selectiv

80 made up of different physical, chemical, or biological species undergoing replication, transformatio

81 The labeling of biological species using dyes has become common practice

82 with a wide range of inorganic, organic, and biological species via highly stable covalent linkages,

83 esting of the association among cultures and biological species was consistent with the information t

84 The heart of taxonomy is the biological species, which forms the foundation for highe

85 od (wild or farmed), geographical origin and biological species, which have to be checked and guarant

86 al, functional, and molecular information of biological species with high spatial resolution, deep pe

87 y for thin specimens of weak absorption, and biological species with refractive indices very close in

88 The nonspecific interaction of the biological species with the surface was evaluated and re

89 We demonstrate the controversial origin of a biological species within an area of a few kilometres in

90 ids for enhanced elasto-inertial focusing of biological species within straight, rectangular cross se

91 Like biological species, words in language must compete to su