ライフサイエンスコーパス: pico-

1 Outcomes were evaluated across four key PICOs: (1) antiviral therapy for prevention of horizonta

2 ntly, we showed the postinspiratory complex (PiCo) acts as an interface between the swallow pattern g

3 , 601E, and 760E) and PalmSens (model Emstat Pico), although the open-source nature of the library al

4 parison (no beta-lactam), and outcome (SCC) (PICO) analysis.

5 latable meal-inducible circadian oscillator (PICO) and wheel-inducible circadian oscillator (WICO) ar

6 adee/Profilin, which directly interacts with Pico, and, Mal, a cofactor for serum response factor tha

7 ry and analysis in aqueous samples of nano-, pico-, and femtoliter in volume.

8 tics in microscopic solution volumes (nano-, pico-, and femtoliter range) compared to the usual macro

9 table microscopic aqueous droplets of nano-, pico-, and femtoliter volumes were made and kept under h

10 Acid/base titrations of pico- and femtoliter microsamples have been performed pr

11 aracteristics in microscopic domains (nano-, pico- and femtoliter range) with respect to usual soluti

12 nd proteins (streptavidin and antibodies) at pico- and femtomolar analyte concentrations.

13 By using pico- and femtosecond fluorescence spectroscopy we demon

14 nd interrogate the diversity of the smaller (pico- and nano-sized) protists from a range of oceanic s

15 e give Synechococcus a competitive edge over pico- and nanoeukaryotes.

16 that can comprise up to 90% of the combined pico- and nanophytoplankton biomass in coastal areas.

17 and identify gradual transitions within the pico- and nanoplankton community that occur repeatedly o

18 l sinking in nine representative unicellular pico- and nanoplankton species.

19 , PhCF3, PhNO2, PhNMe2) were investigated by pico- and nanosecond time-resolved infrared spectroscopy

20 Total RNA-Seq Kit v2 - Pico Input Mammalian (Pico) by Takara Bio claims to overcome these limitations

21 omposition of white truffles (Tuber magnatum Pico) determines its culinary and commercial value.

22 roplets can contain chemicals of interest in pico-, femto-, and attomole amounts or less.

23 lation, Intervention, Control, and Outcomes (PICO) for adult CCUS application were developed.

24 lation, Intervention, Control, and Outcomes (PICO) format and performed a systematic review of the li

25 /problem, intervention, comparison, outcome (PICO) framework was used to identify key clinical knowle

26 pulation, Intervention Comparison, Outcomes (PICO) framework.

27 tervention, comparison/control, and outcome (PICO) from the randomized controlled trial (RCT) abstrac

28 udy the role of the postinspiratory complex (PiCo) in coordinating breathing and swallowing.

29 The Italian white truffle (Tuber magnatum Pico) is worldwide recognized as one of the most expensi

30 eport here that the Drosophila MRL ortholog, pico, is required for tissue and organismal growth.

31 ing nitrogen-derived cationic carriers (Mito.PICO, Mito.ISOQ, and Mito.IMIDZ).

32 rvention, Comparison, Outcome, Study design (PICOS) model for inclusion and exclusion criteria, we sy

33 insensitive to OAE across all size classes (pico, nano and micro), nutritional modes (autotrophic, m

34 ucleic acid (RNA) from three size fractions (pico-, nano- and micro/mesoplankton), as well as from di

35 sient absorption measurements on the femto-, pico-, nano-, and microsecond time scales and are examin

36 tion spectroscopy measurements on the femto, pico-, nano-, and microsecond time scales and by multiwa

37 hods: We summarized evidence addressing five PICO (patients, intervention, comparator, and outcome) q

38 hods: We summarized evidence addressing five PICO (patients, intervention, comparator, and outcome) q

39 tic reviews were conducted around each of 22 PICO (Population, Intervention, Comparator, Outcome) que

40 guidance on formulating questions using the PICO (population, intervention, comparison, outcome) str

41 e main outcome was RCT questions framed in a PICO (population, intervention, control, and outcome) fo

42 lly selected following the identification of PICO (Population: People who have corneal cross-linking

43 A PICOS (Population, Intervention, Comparison, and Outcome

44 ent methods of RNA amplification, IVT and WT-Pico, produce valid microarray profiles of gene expressi

45 lation, Intervention, Control, and Outcomes (PICO) question based on quality of evidence and panel co

46 ion, comparison, outcomes, and study design (PICOS) question, electronic databases were screened for

47 ion, Intervention, Comparison, and Outcomes (PICO) questions according to importance to patients and

48 patient, intervention, comparator, outcome (PICO) questions and systematically reviewed the evidence

49 tion, Intervention, Comparison, and Outcome (PICO) questions and voted to select the most clinically

50 Population/Intervention/ Comparison/Outcome (PICO) questions for adults with Down syndrome addressing

51 Population/Intervention/Comparison/Outcome (PICO) questions for red blood cell (RBC) transfusion in

52 pulation, Intervention, Comparator, Outcome (PICO) questions to provide guidance to the formulation o

53 lation, Intervention, Control, and Outcomes (PICO) questions, we conducted systematic reviews to iden

54 aphy with pinhole incomplete circular orbit (PICO) SPECT imaging of an uncompressed pendant breast wa

55 Patient, Intervention, Comparison, Outcome (PICO) system and Scottish Intercollegiate Guideline Netw

56 In response to the five PICOs, the panel issued four recommendations addressing

57 tion, intervention, comparison, and outcome (PICO)-their target PICO-and consider the extent to which

58 h density functional theory calculations and pico- through microsecond time-resolved IR spectroscopy.

59 tro studies confirmed target specificity and pico- to low nanomolar binding affinity.

60 single zinc sensor facilitates growth across pico- to micromolar zinc concentrations with the bonus o

61 for these experiments: force ranges are from pico- to micronewtons, specimens can be visualized durin

62 ising the rigidity of the domain pair on the pico- to millisecond time-scale.

63 old coating enables capturing the analyte in pico- to nano-molar ranges.

64 3 and MK-6096, as revealed by a small-scale (pico- to nano-mole level) reaction screening using a lab

65 Here we show that pico- to nano-second timescale atomic fluctuations in hi

66 pecifically focused on analyzing proteins at pico- to nanogram levels, with an emphasis on single-cel

67 mtomole quantities of proteins in individual pico- to nanoliter droplets.

68 zed microfluidic droplets are widely used as pico- to nanoliter volume reactors in chemistry and biol

69 Compartmentalization of reactions in pico- to nanoliter water-in-oil droplets in microfluidic

70 noflagellate Alexandrium minutum responds to pico- to nanomolar concentrations of copepodamides with

71 e dynamics of single molecules have required pico- to nanomolar concentrations of fluorophore in orde

72 -containing intermediates and proved potent (pico- to nanomolar range) regulators of both leukocytes

73 In contrast, exposure to gp120 (pico- to nanomolar range, alone or in combination with s

74 ties with dissociation constants K(D) in the pico- to nanomolar range.

75 easurement of S-nitroso compound levels from pico- to nanomole amounts.

76 IMP-1, increasing 15N relaxation evidence of pico- to nanosecond and micro- to millisecond fluctuatio

77 we also find pronounced changes in both the pico- to nanosecond and the micro- to millisecond time s

78 vide biologically relevant information about pico- to nanosecond backbone motion in proteins.

79 Changes in pico- to nanosecond dynamics indicate that the mutationa

80 dynamics despite having only mild effects on pico- to nanosecond fluctuations as corroborated by NMR.

81 The results show that fast pico- to nanosecond time scale active site loop fluctuat

82 a segment that shows high flexibility on the pico- to nanosecond time scale by (15)N relaxation data.

83 flavin ring) localized dynamics occur on the pico- to nanosecond time scale, while subsequent protein

84 nce large-amplitude internal dynamics on the pico- to nanosecond time scale.

85 surements, which characterize motions on the pico- to nanosecond time scale.

86 idues in the wing are highly flexible on the pico- to nanosecond time scale.

87 transport of delocalized singlet excitons on pico- to nanosecond time scales in single supramolecular

88 Our results show that internal motions on pico- to nanosecond time scales in the backbone of DnaJ(

89 m Sn-based perovskite nanocrystals occurs on pico- to nanosecond time scales via two spectrally disti

90 These motions occur not only on the pico- to nanosecond time scales, but also on the microse

91 large site-to-site variations in dynamics on pico- to nanosecond time scales.

92 ry limited conformational flexibility on the pico- to nanosecond time-scale for both p16 and p18.

93 bility as well as limited flexibility on the pico- to nanosecond time-scale, they display pronounced

94 g the motion of the permeant molecule on the pico- to nanosecond timescale.

95 ase in the extent of protein dynamics on the pico- to nanosecond timescale.

96 nd CRBP II are conformationally rigid on the pico- to nanosecond timescale.

97 ta2 of Cdc42Hs, exhibits low mobility on the pico- to nanosecond timescale.

98 ide chains are short-lived and exchange on a pico- to nanosecond timescale.

99 g water transport and relaxation dynamics at pico- to nanosecond timescales and at length scales rele

100 ide binding decreases protein motions in the pico- to nanosecond, and perhaps slower, time range.

101 aestivum Vittad.) and white (Tuber magnatum Pico) truffles.

102 The WT-Ovation Pico System (WT-Pico) was used to amplify 2 ng of pan-neural RNA to prod