ライフサイエンスコーパス: biological community

1 line analysis of missense variants by a wide biological community.

2 ons and provides a valuable resource for the biological community.

3 e to the presence of an active and resilient biological community.

4 rs promises to satisfy a growing need in the biological community.

5 wers barriers to Rosetta use for the broader biological community.

6 efulness of the online server to the broader biological community.

7 informed Visualization solutions back to the Biological community.

8 ty restricted its proliferation to the wider biological community.

9 source listing key databases of value to the biological community.

10 essible, efficient analysis tools within the biological community.

11 rence atlases offer enormous promise for the biological community.

12 rovided, leaving the field unattended by the biological community.

13 in kinase is a fundamental challenge for the biological community.

14 in ice sliding, melt of basal ice and marine biological communities.

15 al condition for their stable coexistence in biological communities.

16 on can differentially impact the assembly of biological communities.

17 standing changes in the Earth system and its biological communities.

18 ebae to study historical changes in peatland biological communities.

19 barcoding) offers an alternative to describe biological communities.

20 insight into the behavior of a wide array of biological communities.

21 al ocean volume and hosts active and diverse biological communities.

22 ficantly altered the landscape and the local biological communities.

23 l research about the trophic organization of biological communities.

24 e profoundly expanded our ability to measure biological communities.

25 t and fluid, and the possible effect on vent biological communities.

26 ping the ecological niche space available to biological communities.

27 nisms underlying patterns of biodiversity in biological communities along environmental gradients.

28 l distribution and ecosystem function of the biological communities along the AMOR, which will inform

29 e purpose of this paper is to present to the biological community an approach that demonstrates the a

30 Critical reorganization of biological communities and biodiversity loss are expecte

31 t, widespread, and profoundly influential in biological communities and ecosystems.

32 alcoat and to demonstrate potential risks to biological communities and human health.

33 and overlying ocean, supports chemosynthetic biological communities and is responsible for significan

34 history events, can be heterogeneous across biological communities and landscapes and can vary acros

35 Brine waves can negatively affect biological communities and potentially overspill to spre

36 y of the seafloor and composition of benthic biological communities and quantify mechanical energy di

37 ting global biogeochemical cycles, yet their biological communities and related carbon dynamics are h

38 change is an important driver of impacts to biological communities and the ecosystem services they p

39 , HGTree represents a useful addition to the biological community and enables quick and easy retrieva

40 viding an accessible resource to the general biological community and facilitating the functional int

41 me on scales pertinent to the transitions of biological communities, and predictions of community sus

42 ise, plant genotype will modulate these same biological communities, and should be considered when de

43 ar, circuit/network, cell/cell-free systems, biological communities, and societal-giving students a h

44 signed specifically to meet the needs of the biological community, and a range of 'BioBeans' are bein

45 Changes in biological communities are contemporaneous with shifts i

46 egies can be informed by understanding which biological communities are most at risk.

47 Biological communities are normally composed of a few ab

48 Biological communities are remarkable in their ability t

49 How geographically widespread biological communities assemble remains a major question

50 volution is a major process operating across biological communities at a range of spatial scales.

51 ariable, putting entire meltwater-associated biological communities at risk of extinction.

52 ecoregions that meaningfully delimit marine biological communities based on their connectivity and t

53 ciated with physiological changes throughout biological communities but can also result in biomass de

54 trategy fulfills a long-standing need in the biological community by facilitating modification site i

55 creasing our understanding of the ecology of biological communities can aid in considerations of how

56 tion, the proposed model leads us to see how biological communities can operate in an integrated way,

57 ipate that it will be adopted rapidly by the biological community.Challenges in biological imaging in

58 e are fundamental to determining how and why biological communities change through time, as well as t

59 Invasive species can quickly transform biological communities due to their high abundance and s

60 ch identified essential conserved and varied biological communities from partially observed Arabidops

61 ssible to track the ecology and evolution of biological communities from two million years ago using

62 e definition of resolution, has hindered the biological community from fully recognizing SRM's contri

63 l variation on the long-term trajectories of biological communities, from initiation to their demise.

64 ity assembly is a key aspect of learning how biological communities function.

65 onse to the selective pressures of life in a biological community, [GAR(+)] presents a unique example

66 As the needs of the biological community grow, so too will the need for more

67 Most biological communities have long-tailed species abundanc

68 p periodically, but our understanding of the biological communities in dry riverbeds remains limited.

69 Climate warming is causing a shift in biological communities in favor of warm-affinity species

70 In contrast to generally sparse biological communities in open-ocean settings, seamounts

71 ) has revolutionized our ability to describe biological communities in space and time,(1-3) by allowi

72 The biological communities inhabiting the Arctic during this

73 strong potential to shift earth systems and biological communities into novel states that have no pr

74 Diversity in biological communities is a historical product of immigr

75 e imprints of global environmental change on biological communities is a paramount task for ecologica

76 The structure of biological communities is conventionally described as pr

77 s of environmental change interact to affect biological communities is largely unknown, especially ov

78 It is critical that the biological community is aware of such tools and is able

79 The activity of a biological community is the outcome of complex processes

80 model systems for investigating assembly of biological communities, long-term changes in archipelago

81 More diverse biological communities may provide ecosystem services th

82 We report a large shift in the biological communities of San Francisco Bay, first detec

83 enters aquatic ecosystems that could impact biological communities of the oil sands region.

84 The biological communities of urban ponds were markedly diff

85 and thereby broaden the accessibility to the biological community of continuum electrostatics analyse

86 Biological communities often occur in spatially structur

87 cosystems with habitats, biogeochemistry and biological communities outside the natural range of vari

88 cally to determine trajectories of change in biological communities over time.

89 though there is still some skepticism in the biological community regarding the value and significanc

90 r, the resilience and stability of surviving biological communities remain poorly quantified.

91 tion of the developed methods by the broader biological community remain challenging because of the i

92 Yet, how biological communities respond to concurrent stressors a

93 The biological community's reliance on computational annotat

94 Our results indicate that the biological community shapes the very nature of the fitne

95 ersion and displacement, ultimately yielding biological communities strongly divergent from those in

96 As such, resultant changes to biological community structure are likely storm-specific

97 nts has been suggested as key to controlling biological community structure in these extreme aquatic

98 oach of tRNA modification studies in natural biological communities such as microbiomes.

99 e lack of robust baseline information on the biological communities that carry out marine photosynthe

100 over decades often reveal abrupt changes in biological communities that signal altered ecosystem sta

101 ates from the selective pressures of life in biological communities, the ability of bacteria to induc

102 hnologies are to be of widespread use to the biological community, the reproducibility of each method

103 viding important insights on the response of biological communities to climate change.

104 Response of biological communities to environmental stresses is a cr

105 long-term environmental exposure of diverse biological communities to Me(O)NPs in streams receiving

106 Consequently, the capacity of the biological community to draw down atmospheric CO2 and tr

107 on-coextinction-colonization dynamics affect biological communities under climate change is poorly un

108 py as a means of identifying fingerprints of biological communities, which could be used in the geolo

109 such as nestedness and connectance stabilise biological communities while ignoring key behavioural as

110 for studies of bioenergetics to the broader biological community will enable these and other links t

111 ectrometers that are widely available to the biological community, will make this procedure readily a

112 ely to cause specialists to decline, leaving biological communities with reduced numbers of species a

113 and functional genomics efforts provide the biological community with ever-broadening sets of interr

114 s, high diversity rotations can sustain soil biological communities, with positive effects on soil or

115 Phyre is widely used by the biological community, with >150 submissions per day, and

116 rect interactions (TMIIs)] are widespread in biological communities, yet few studies have explored th

117 Dietary partitioning plays a central role in biological communities, yet the extent of partitioning o