ライフサイエンスコーパス: test tube

1 t blood test cards, and fecal immunochemical test tubes).

2 venly divided into six aliquot portions (six test tubes).

3 al biology, where they replace the classical test tube.

4 their capacity to support VP1 function in a test tube.

5 gates formed in aggregation reactions in the test tube.

6 pacity to form factory-like condensates in a test tube.

7 re and function had just been created in the test tube.

8 obulin to cross-seed aSyn aggregation in the test tube.

9 on investigating their phase behaviors in a test tube.

10 ability of the enzyme to copy viral RNA in a test tube.

11 ten less deleterious in the cell than in the test tube.

12 o synthesize RNA in the presence of VP2 in a test tube.

13 tute a remarkable circadian oscillation in a test tube.

14 ce to and dispersal from a plastic bead in a test tube.

15 first enzyme found to synthesize RNA in the test tube.

16 ethodology to mimic prion replication in the test tube.

17 re than 10(12) different mutants in a single test tube.

18 age each other to mediate RNA synthesis in a test tube.

19 recapitulates mitotic spindle assembly in a test tube.

20 substrate known and is commonly used in the test tube.

21 utagenesis, screening and amplification in a test tube.

22 f the protein in the cell as compared to the test tube.

23 shion, both in cultured parasites and in the test tube.

24 made to evolve in a continuous manner in the test tube.

25 bles of quantum spins, namely molecules in a test tube.

26 onto tissue culture plastic or suspended in test tubes.

27 tive than graphite and may serve as nanosize test tubes.

28 ecovery and detection of intact rRNA in both test tube and automated suspension array hybridization f

29 ding parameters of these sensors both in the test tube and in living cells.

30 majority of such knowledge is obtained from test tube and in vitro studies.

31 ng glycans can be labeled selectively in the test tube and live cells, highlighting the reactivity an

32 ges millions of times larger than laboratory test tubes and at substrate concentrations trillions of

33 d a differential between the moist cotton in test tubes and drying soil in trays.

34 oligomers and insoluble aggregates, both in test tubes and live cells.

35 wn to pick up inadvertent contamination from test tubes and pipette tips showing its applicability in

36 rhaps they have not heard of 'evolution in a test tube' and how Wrinkly Spreaders can form the basis

37 the most natural conditions possible in the test tube, and testing some qualitative theories of geno

38 Living U2OS cells served as our test tube, and the mammalian cell cycle, a process stric

39 e employed single-walled carbon nanotubes as test tubes, and an 'atomic injector' coupled with aberra

40 er a cell assay (amber suppressor tRNA) or a test tube assay (phage T7 tRNA substrate and purified en

41 t formed a mature biofilm on gallstones in a test tube assay and in a new, gallstone-independent assa

42 itogen-activated protein (MAP) kinase in the test tube assay, in particular the ERK1/ERK2 isoforms.

43 ed almost 100-fold compared to the classical test tube assay.

44 esent in the cell assay may be absent in the test tube assay.

45 In test tube assays, PAM is phosphorylated by protein kinas

46 iruses (phages) undergo rapid coevolution in test tubes, but the relevance to natural environments is

47 ive diversification over a matter of days in test tubes, but the relevance to natural populations rem

48 -kDa brain protein, can be phosphorylated in test tube by several protein kinases, and that endogenou

49 We have reproduced this linkage in the test tube by transcribing and translating single genes i

50 the unnatural histories of microorganisms in test tubes can be extrapolated only so far.

51 ro translation and allow us to calibrate our test tube conditions to represent the environment inside

52 ydralazine readily traps such species under "test-tube" conditions, whether these reactions adequatel

53 culates the differences of absorbance in the test tube containing 10% sodium deoxycholate versus a bl

54 mediate external contamination, suspended in test tubes containing sterile culture broth, and followe

55 Each target test tube contains a set of desired "on-target" complexe

56 tative CaM biochemistry from the traditional test-tube context into the realm of functioning holochan

57 igh correlation between the microfluidic and test tube data supports the approach robustness.

58 ellular components of 3T3-L1 adipocytes in a test tube, early insulin signaling events dependent on p

59 represents the first solution-phase, single test tube, enzymatic full adder and shows the complexity

60 s shown to be as reliable as its macroscopic test tube equivalent.

61 nventional method of batch cultivation using test tubes, Erlenmeyer flasks, or the recently available

62 ed fragment of huntingtin Exon 1 (httEx1) in test tube experiments and in cell models and accelerated

63 5 and the hyperactive Cdk5/p25 activities in test tube experiments.

64 Our test-tube experiments confirmed that apoflavodoxin's tim

65 type that differ significantly from those of test tube-grown cells, and even from those of aerobic bi

66 esents strong evidence for the use of simple test tube growth as the gold standard model for studying

67 Standard glass test tubes half filled with water and plugged with cotto

68 transcripts and repair defective RNAs in the test tube has engendered speculation about their potenti

69 ism" or "filterable virus." But in 1918, the test tubes he had been using for these experiments vanis

70 were accurately weighed in a safe-lock micro test tube, homogenized in 1.5 mL dichloromethane-methano

71 d candidate has successfully progressed from test tubes (i.e., in vitro characterization of protease-

72 d candidate has successfully progressed from test tubes (i.e., in vitro characterization of protease-

73 quilibrium ensemble properties of the target test tubes implements both a positive design paradigm, e

74 Unlike in an experimental setting in the test tube in which the entire length is allowed to fold

75 d that some AAs efficiently suppress LLPS in test tubes (in vitro).

76 etailed characterization of this reaction in test tube, intact cell culture, and animal models.

77 to phosphorylate exogenous substrate in the test tube is also normal following its isolation from TN

78 st pronounced when the number of fluctuation test tubes is small.

79 However, the reaction medium in test tubes is typically simple and diluted.

80 ort is validated through molecular dynamics, test tube kinetic assays of downstream phosphorylation a

81 actually enhances enzyme activity beyond the test-tube levels of free enzymes in solution.

82 ChIP assay is traditionally done in test tubes limiting the ability to study signaling of th

83 of the folding nucleus and suggest possible test tube mutation studies for testing folding behavior

84 Oceanic islands are known as test tubes of evolution.

85 ng tasks to take place simultaneously in one test tube or for multiple robots to collectively perform

86 upted have shown paradoxical effects; in the test tube or in cell culture these enzymes show metaboli

87 ol, ODI in ethyl acetate) were injected in a test tube or strip-well containing fluorescein and resor

88 , microfluidic devices are more complex than test tubes or microtitre plates and the integration of r

89 We have used the assay either in test tubes or with microplates, attaining sensitivity of

90 Excellent work demonstrates that, in the test tube, prion protein itself is responsible for its s

91 Protoplast and test-tube reconstitution assays were used to test the fu

92 hem to reconstitute molecular processes in a test tube, researchers have gathered crucial knowledge a

93 This study brings the cellular and test tube results in closer agreement by showing that HI

94 Experiment 2: Of the remaining two test tube samples from each subject, one tube contained

95 herd, respectively, "Dennis, don't just be a test tube scientist, do something to help people" and "N

96 lial monolayer that lines the colonic crypt, test-tube shaped invaginations that punctuate the lining

97 tain their native state when refolded in the test tube, starting from a chemically or thermally denat

98 Test tube studies demonstrate strong OFF/ON conditional

99 On the basis of test tube studies, tau has been proposed to function in

100 n with decane was analyzed using traditional test-tube swelling experiment and Dynamic Light Scatteri

101 Test-tube swelling, TGA, and DSC experiments were also p

102 on is influenced by the anticoagulant in the test tube that contains the blood sample; b) to test the

103 ns are well mixed (like bacteria in a shaken test tube), the spreading dynamics depend not only on fi

104 Analogous to the shaken test tubes, the ocean can be characterized by intense fl

105 regation has been extensively studied in the test tube, therefore under conditions that are far from

106 cted to function inside the cell, not in the test tube; therefore, their performance is optimized for

107 ess of biological molecules and systems in a test tube through iterative rounds of gene diversificati

108 tions may not be readily translated from the test tube to the cell in the absence of particle surface

109 he transition of DNA nanotechnology from the test tube to the cell.

110 IFA moved from trays to moist cotton in the test tubes to avoid dehydration.

111 gap remains in moving nano/micromotors from test tubes to living organisms for treating diseases wit

112 e optimization problem using a set of target test tubes to represent reactant, intermediate, and prod

113 ations of fast-replicating microorganisms in test tubes to study evolution.

114 We use U2OS cells as in vivo "test tubes" to study how the same cytoplasmic environmen

115 emulsion droplets can replace the classical test tube, to provide in vitro compartments as an altern

116 regates have been studied extensively in the test tube under well-controlled conditions.

117 ription and a full cycle of replication in a test tube using vRNPs isolated from virions and recombin

118 e years later, in 1951, a box containing the test tubes was discovered by chance during clean-up in p

119 microM) concentrations to inhibit PKC in the test tube, whereas it is required at lower (1-10 microM)

120 ~10 times lower than the rate for RT in the test tube, which invokes the possibility of factors that

121 ination of total metal content from a single test tube with low dilution factor of 5.

122 pipettes are finding increasing use as nano "test tubes", with reactions triggered through applicatio

123 natured proteins refold spontaneously in the test tube, with biochemists and cell biologists who are

124 thrombi were completely extracted from 14-mm test tubes, with an aspirated fluid volume of 201 mL +/-