ライフサイエンスコーパス: biological analysis

1 nd provide the starting point for downstream biological analysis.

2 eochemistries were confirmed by spectral and biological analysis.

3 ined with genetic, cytological and molecular biological analysis.

4 and other molecules is a critical aspect of biological analysis.

5 y improving accuracy and enabling subsequent biological analysis.

6 alides to provide a library of compounds for biological analysis.

7 s substrates in high-throughput chemical and biological analysis.

8 assembly is a rapid and useful strategy for biological analysis.

9 ling strategies has become very important in biological analysis.

10 des additional capabilities for chemical and biological analysis.

11 s is a crucial step for on-chip chemical and biological analysis.

12 convenient and inexpensive for clinical and biological analysis.

13 cient quantities to allow molecular and cell biological analysis.

14 electronics for applications in chemical and biological analysis.

15 and their applications in single cell level biological analysis.

16 ith extensive genetic, biochemical, and cell biological analysis.

17 ultiple scRNA-seq experiments for downstream biological analysis.

18 eloped for operating all these databases for biological analysis.

19 and real-time data analytics to chemical and biological analysis.

20 fting to polymer synthesis and the impact on biological analysis.

21 find that the SupirFactor model facilitates biological analysis acquiring novel functional and regul

22 escent nanoparticles (LNPs) for chemical and biological analysis and imaging is flourishing.

23 asma gondii as an accessible system for cell biological analysis and molecular genetic manipulation,

24 ts' often have negative impact on downstream biological analysis and need careful consideration.

25 e a great impact on modern life sciences for biological analysis and target detection.

26 The trend towards biological analysis at increasingly smaller scales, ulti

27 Complementary proteomic and cell biological analysis demonstrate that the spindle checkpo

28 Measurements limited to those levels of biological analysis did not reveal the biochemical mecha

29 Moreover, cell biological analysis established that Syndecan1 is a phys

30 We also performed additional expression and biological analysis for the top genetic hits.

31 Biological analysis has shifted from identifying genes a

32 practical spectrochemical analysis model for biological analysis in real-world applications, where fa

33 A more detailed biological analysis in yeast showed that the Mnk2 intera

34 Biochemical and cell biological analysis indicate that the Zn1 and Zn2 domain

35 Cell biological analysis indicates that MAP7 promotes branch

36 pen-source 2LabsToGo system for chemical and biological analysis is completely solvent-resistant and,

37 mplications for high-throughput chemical and biological analysis, lubrications, laboratory-on-chip de

38 Biological analysis of diptericin fragments indicated th

39 n bottleneck in proteomics is the downstream biological analysis of highly multivariate quantitative

40 Last, integrative biological analysis of human skin disorders has revealed

41 Systems biological analysis of immunity to the trivalent inactiv

42 on, this study illustrates the value of deep biological analysis of select missense mutations in eluc

43 be exploited, by using programs designed for biological analysis of sequence evolution to uncover the

44 To facilitate the biochemical and biological analysis of sFRP-1, we developed a mammalian

45 s as measured through luciferase assays, the biological analysis of stably transduced cell lines, and

46 Here, we describe the derivation and biological analysis of ten infectious molecular clones,

47 Biological analysis of the 18 proteins points to systemi

48 This review concentrates on a cell biological analysis of the BBB, with an emphasis on regu

49 l challenges associated with performing cell biological analysis of the delicate filopodial structure

50 Here, by functional and biological analysis of the most representative molecules

51 Biological analysis of the NS5A RNA-binding activity and

52 Here, we perform structural and biological analysis of the receptor binding fiber-knob p

53 lls to carry out a detailed genetic and cell biological analysis of the resulting ovarian tumor pheno

54 and gene expression data analysis and offer biological analysis of the results obtained.

55 We present a biological analysis of three of the resulting functional

56 This allowed for the molecular cloning and biological analysis of transmitted/founder viruses and a

57 Biological analysis of two iridals, NSC 631939 and NSC 6

58 responses, and define a system for the cell biological analysis of warmth transduction.

59 imicrobial performance was validated through biological analysis on both as-deposited and thermally a

60 or underlying substrate and, in the case of biological analysis on skin surfaces, without electrical

61 recent examples of advances in chemical and biological analysis, point-of-care diagnostics, and cell

62 Cell biological analysis revealed that ALIX and AMSH3 colocal

63 Physicochemical and biological analysis revealed that the mutant was suscept

64 Cell biological analysis reveals that Pkd1l1 and Pkd2 localis

65 nic devices with widespread applicability in biological analysis, sensing, and logic computing.

66 core, while more recent biochemical and cell biological analysis shows that the two transmembrane cas

67 ul functional operation preceding downstream biological analysis, since it allows the accurate latera

68 Also, experimented biological analysis such as confocal and Flowcytometry a

69 er SCNV evaluation, immunohistochemistry and biological analysis suggested their functional relevance

70 luidic technologies has enabled chemical and biological analysis systems with increased functionality

71 To demonstrate its potential for biological analysis, this device was used to measure bas

72 Recent advances have applied systems biological analysis to define molecular signatures induc

73 edicinal chemistry evaluation and a two-step biological analysis to help select the optimal target co

74 ss II epitope candidates and in vitro T-cell biological analysis to identify class II-restricted epit

75 This knowledge can be utilized in further biological analysis to understand disease dynamics and i

76 ty-eight diverse compounds were selected for biological analysis, using molecular field similarity to

77 Here, biochemical and cell biological analysis was used to determine that TTC17 is

78 s, MeRIP-seq and RNA-seq methods, as well as biological analysis, we showed that Magnaporthe oryzae M

79 -ICPMS) has gained increasing importance for biological analysis, where ultratrace imaging at microme

80 of sufficient 'intact' transgenic clones for biological analysis with a single experiment.