ライフサイエンスコーパス: analyser

1 pled to mass spectrometry (Exactive-Orbitrap analyser).

2 were determined using a LUMiSizer dispersion analyser.

3 e, where F1 acts as the polarizer and F2 the analyser.

4 rometry (UHPLC-MS/MS) with triple quadrupole analyser.

5 tandard'-the Humphrey automated visual field analyser.

6 s spectrometry with a triple quadrupole mass analyser.

7 could be used to create a photon statistics analyser.

8 erioles was measured using a video-dimension analyser.

9 try using a single quadrupole-time-of-flight analyser.

10 al CO(2) ( PETCO2 ) was measured using a gas analyser.

11 id chromatography coupled to Q-Orbitrap mass analyser.

12 -specific cell phenotypes of interest to the analyser.

13 the interventions, data collectors, and data analysers.

14 activity rather than as independent feature analysers.

15 without the need for external polarizers and analysers.

16 stimated the FWMC derived from the bank-side analysers.

17 y performed using commercially available gas analysers.

18 lopment of a high-throughput experimentation analyser, a robust and statistically rigorous framework,

19 re being obtained by the GIADA (Grain Impact Analyser and Dust Accumulator) experiment on the Europea

20 l properties were measured using Rapid Visco-Analyser and Farinograph, respectively, while gliadins a

21 signal positive, tubes were removed from the analyser and in addition to standard laboratory procedur

22 d by (13)C NMR analysis compared with carbon analyser and nominal methods.

23 spectrometry analysis using triple quadruple analyser and operated in the multiple reaction monitorin

24 hput sequencing using the Illumina 1G Genome Analyser and Solexa sequencing technology.

25 gh-precision (<10 ppb) methane concentration analyser and the data analysis method, was evaluated wit

26 ract was characterized by HPLC coupled to MS analysers and the potential applications for the food in

27 Currently, it hosts two enrichment analysers and two subnetwork analysers to support enrich

28 ur modulator to act as a new beam generator, analyser, and corrector, opening an exciting path to tun

29 Our results validate NMJ-Analyser as a robust platform for systematic and structu

30 ectly coupled to different mass spectrometry analysers as Orbitrap and triple quadrupole (QqQ), remov

31 ration (FWMC) from high-resolution bank-side analysers at each site.

32 the gas analysis, we developed an in-airway analyser based on laser absorption spectroscopy to provi

33 eled primers and sized with an automated DNA analyser before calculation of lod scores.

34 ment of laser spectra (e.g. optical spectrum analysers) capture data averaged over a considerable tim

35 e and expensive apparatus including electron analysers coupled with sophisticated differentially pump

36 The Rapid Visco Analyser data revealed significantly (p < 0.05) lower va

37 n spectroscopy (CV-AAS) and a direct mercury analyser (DMA).

38 red with those obtained using Direct Mercury Analyser (DMA).

39 as assessed using the Dynamic Retinal Vessel Analyser (DVA), and systemic macrovascular function by m

40 pectrometer in combination with an elemental analyser (EA-IRMS).

41 rtphone was exploited as an image reader and analyser, empowered with a novel App developed in-house.

42 We present the Bayesian automated metabolite analyser for NMR spectra (BATMAN), an R package that dec

43 d to a mass spectrometer with time of flight analyser (GCxGC-ToFMS) by comparing the first dimension

44 NMJ-Analyser generates 29 biologically relevant features to

45 ld (VF) was recorded with the Humphrey Field Analyser (HFA, SITA standard) and repeated at 6 months.

46 The enrichment analysers identify ontology term enrichments for input g

47 tudy the noise structure of an Orbitrap mass analyser integrated into a secondary ion mass spectromet

48 Native Mass Spectrometry Visual Analyser is a web-based tool to augment the manual proce

49 tography coupled to a triple quadrupole mass analyser (LC-QqQ-MS/MS).

50 ges in MRI signal and conventional blood gas analyser measurements during normoxic and hyperoxic cond

51 Using a Seahorse analyser, metabolic function of human primary ECs from d

52 ent a retinal extension to the OCTA Vascular Analyser (OCTAVA) that addresses the challenges of provi

53 concentrations (assessed with a photometric analyser) of the children were measured.

54 nalysis was performed using a Sysmex XN-1000 analyser on blood samples acquired on the day of the the

55 ectrometry equipped with a triple quadrupole analyser operating in Multiple Reaction Monitoring mode.

56 atient department to undergo ocular response analyser (ORA) testing and ultrasound pachymetry as well

57 used on data obtained from Illumina's Genome Analyser platform, where at least three factors contribu

58 Portable gas exchange analysers provide critical data for understanding plant-

59 The subnetwork analysers rely on our previously established network alg

60 nd 0.5-10 ug kg(-1) for the QqQ and Orbitrap analyser respectively.

61 scanning calorimetry (DSC), the Rapid Visco Analyser (RVA) and in vitro digestibility.

62 tablished in this study that the Rapid Visco Analyser (RVA) can describe maize hardness, irrespective

63 ts were performed with an extracellular flux analyser (Seahorse Bioscience, Billerica, MA, USA), and

64 parison of single and triple quadrupole mass analysers showed comparable performance, although the tr

65 metry results are simultaneously provided by analyser software, enabling wide applicability of the sc

66 We have produced a program, Subtype Analyser (STAR) that rapidly and accurately subtypes HIV

67 maternal and fetal SO2 and PO2 by blood gas analyser, supporting the possibility of using multimodal

68 Here we present a microfluidic analyser that detects individual nanoparticles and chara

69 ew software SIAN (Structural Identifiability ANalyser) that does this.

70 ducts separated on a capillary-based genetic analyser; the results were interpreted with dedicated so

71 integrate FT-NIR data with thermogravimetric analyser to simulate of different thermal conversion of

72 two enrichment analysers and two subnetwork analysers to support enrichment and subnetwork analyses

73 Here, we describe the development of 'NMJ-Analyser', to comprehensively screen the morphology of N

74 chromatography coupled to triple quadrupole analyser (UHPLC-QqQ-MS/MS).

75 The analyser uses a submersible microfluidic lab-on-chip dev

76 An analyser was constructed on the basis of on-line connect

77 very sensitive method using a direct mercury analyser was developed and validated according to the ac

78 etry (MS/MS) using a triple quadrupole (QqQ) analyser was developed for the analysis of eight biogeni

79 The analyser was tested during a deployment over several wee

80 The high-throughput experimentation analyser was validated on cross-coupling and hydrogenati

81 n an agricultural site with four laser-based analysers, we show here that N2O exchange exhibits contr

82 Portable, automated radon and pCO(2) gas analysers were connected in series and a closed air loop

83 Data analysers were masked to group assignment.

84 c flow is monitored using temporal frequency analysers, whereas translational optic flow seems to be

85 53 SCCHN cell lines in an extracellular flux analyser (XF24, Seahorse Bioscience, Billerica, MA, USA)