ライフサイエンスコーパス: constant temperature

1 host early Darwinian molecular evolution at constant temperature.

2 s formed and assessment of G4 stability at a constant temperature.

3 ndred millivolts, we can trigger IM-PCR at a constant temperature.

4 ent with variations in mantle composition at constant temperature.

5 that undergo exponential amplification at a constant temperature.

6 inment to thermocycles versus photocycles in constant temperature.

7 hat became infectious (vector competence) at constant temperature.

8 ected scaling of metabolic rate with size at constant temperature.

9 racy comparable to the results obtained at a constant temperature.

10 y monitoring fluorescence at each cycle at a constant temperature.

11 dry weight as compared with those under the constant temperature.

12 d low-cost amplification of nucleic acids at constant temperatures.

13 vival of Gammarus pulex exposed to different constant temperatures.

14 o and pathogen thermal responses measured at constant temperatures.

15 sects that diverge from those predicted from constant temperatures.

16 e 'fundamental' norms derived under standard constant temperatures.

17 na for circadian leaf movement at a range of constant temperatures.

18 nted growth under continuous irradiation and constant temperatures.

19 der varying pressure conditions at different constant temperatures.

20 isture contents (30.0, 49.3, and 60.0%) at a constant temperature (144.57 C) to evaluate the changes

21 isture contents (30.0, 49.3, and 60.0%) at a constant temperature (144.57 degrees C) to evaluate the

22 s, our simulations used an atom-based model, constant temperature (274 K), and non-beta-hairpin initi

23 ric fields at a low field strength (0.4V/cm) constant temperature (65 degrees C) has a statistically

24 d to reversibly switch the particle array at constant temperature and blink the particles ON and OFF

25 y increasing the additive concentration at a constant temperature and by increasing temperature at a

26 conditions can be controlled by pressure, at constant temperature and flow rate.

27 The constant temperature and pressure algorithm of the AMBER

28 We report the results of constant temperature and pressure molecular dynamics cal

29 length were carried out under conditions of constant temperature and pressure using periodic boundar

30 d classical molecular dynamics simulation at constant temperature and pressure with explicit solvent

31 th a shorter juvenile stage duration than in constant temperatures and a longer adult life span in mo

32 gh typically cosseted in the laboratory with constant temperatures and plentiful nutrients, microbes

33 constant conditions (continuous darkness and constant temperature) and is eliminated by period gene n

34 curves of helix formation induced by TFE at constant temperature, and the properties of these helix

35 traeus albidus (Oligochaeta) under different constant temperatures, and an FT regime were investigate

36 ity along Earth's surface needed to maintain constant temperatures, and has a global mean of 0.42 km

37 ing the thermal power required to maintain a constant temperature as the substrate is consumed.

38 To evaluate the constant temperature assumption in our experiments, the

39 In the present apparatus, water, at a constant temperature between 3 and 60 degrees C, is circ

40 arrest with an initial shockable rhythm at a constant temperature between 32 degrees C and 36 degrees

41 red as a function of lipid molecular area at constant temperatures between 10 degrees C and 30 degree

42 function of lipid molecular area at various constant temperatures between 10 degrees C and 30 degree

43 support of these findings, saplings grown at constant temperature but exposed to an extended photoper

44 e when incubated for 21 days at 20 degrees C constant temperatures, but nearly 30% germinate after 21

45 rification in an aged woodchip bioreactor at constant temperature can effectively be modeled using ze

46 ween ultrahigh vacuum and 2 mbar of water at constant temperature causes oxidation state changes not

47 surement of NOE effects, 3JHN alpha coupling constants, temperature coefficients and residue-specific

48 Further, in constant temperatures, contrary to physiological expecta

49 s between 17 and 27 degrees C, relative to a constant-temperature control.

50 Further, model simulations, including constant temperatures, daily temperature fluctuations, a

51 rate that the rate of plant respiration at a constant temperature decreases monotonically with time t

52 reserving growth of spiral steps rotating at constant temperature-dependent angular velocities around

53 ir effect on (3)J(PH), the negative coupling constant, temperature-dependent chemical shifts due to r

54 its; and 3) while thermal suitability across constant temperatures did not perfectly capture fluctuat

55 y conformation when used in conjunction with constant temperature discontinuous molecular dynamics, a

56 otein dynamics when used in conjunction with constant-temperature discontinuous molecular dynamics, a

57 iable temperature environment and not in the constant temperature environment.

58 from the Ebolavirus nucleoprotein gene in a constant-temperature environment.

59 Also, compared to constant temperature environments, such systems are rare

60 trait values substantially differ from both constant temperature experiments and rate summation; 2)

61 ften much higher than those used in previous constant temperature experiments.

62 mperature-trait relationships observed under constant temperatures, fluctuating temperatures, and tho

63 oses: (1) it increases the eluent entropy at constant temperature (for approximately 35%); (2) it inc

64 t serves to generate stable water flow under constant temperature, for the study of flow-induced prot

65 table states, and seeds short simulations at constant temperature from each of them to quantitatively

66 es, but those hives also had higher and more constant temperatures from September until January than

67 cells grown at 33 degrees C was measured at constant temperature, from 10 degrees to 40 degrees C, a

68 ants in soil invertebrates under optimal and constant temperature has been widely reported, their upt

69 Isothermal methods, that operate at constant temperature, have emerged as promising alternat

70 At the same, constant temperature, homotrimers denature approximately

71 able of the predator was constructed at four constant temperatures, i.e. 15, 20, 25 and 30 degrees C,

72 s mass (M) loss as a function of time (t) at constant temperature in a dynamic inert nitrogen atmosph

73 simultaneously screened and amplified at one constant temperature in one easy step.

74 that undergo self-sustained replication at a constant temperature in the absence of proteins.

75 l tubing, reduced column end nut mass, and a constant temperature in the column from heating the inle

76 n rates and reduced spore burden compared to constant temperatures in our focal host Daphnia magna ex

77 5) ions m(-2) while simultaneously heated at constant temperatures in the range 823-1223 K.

78 t future studies report ES at a standardized constant temperature, incorporate more manipulative trea

79 that undergoes self-sustained replication at constant temperature, increasing in copy number exponent

80 whether the hives were stored outside or in constant temperature indoor storage.

81 observation that the volume of a gas is, at constant temperature, inversely proportional to pressure

82 rope required to half-denature the tracer at constant temperature is then estimated.

83 al effect increases with temperature and, at constant temperature, is invariant over a wide range of

84 linear averaging of trait values measured at constant temperatures-is commonly used to infer performa

85 At constant temperature, isolated nuclei behaved like passi

86 ound a single cell, our approach can produce constant temperature jumps over 50 degrees C in submilli

87 ral repressor FLC on flowering time by using constant temperature laboratory conditions.

88 Conversely, under constant temperature microwave conditions (200 degrees C

89 t better convergence is achieved compared to constant temperature molecular dynamics simulation, with

90 rmal pressure, constant surface tension, and constant temperature (NP(N)gammaT) molecular dynamics (M

91 Compared to the natural situation (NS) at a constant temperature of 10 degrees C, both UTES systems

92 ing shed for 60h using 2ppm of ethylene at a constant temperature of 20 degrees C.

93 Experiments kept at a constant temperature of 21 degrees C support the existen

94 The twisted pipes' walls were heated under a constant temperature of 330 K.

95 Results: The mouse hotel maintained a constant temperature of 36.8 degrees C +/- 0.4 degrees C

96 ised forward primers on specific rings, at a constant temperature of 37 degrees C and in less than 60

97 unts of DNA copies in less than an hour at a constant temperature of 37 degrees C, achieving a limit

98 being completed in less than 15 minutes at a constant temperature of 37 degrees C.

99 lized to CO2 within 50 incubation years at a constant temperature of 5 degrees C, with vulnerability

100 tion, the simulation was run for 3.8 ns at a constant temperature of 50 degrees C and a constant pres

101 en and thermal degradation when exposed to a constant temperature of 50 degrees C, resulting in decre

102 Seeds were placed in germination chambers at constant temperatures of 5 +/- 0.5 to 40 +/- 0.5 degrees

103 coupled periodic self-motions in response to constant temperature or constant light sources: inside-o

104 sed, isolated system, or perhaps one held at constant temperature or pressure.

105 ents are often performed under conditions of constant temperature or salinity or in flows with only s

106 EOP rate by more than 2-fold compared to the constant-temperature polarization rate (e.g., giving eff

107 elicited below 20 degrees C and that at any constant temperature, potentiation can be described by a

108 activity rhythm varied little when tested at constant temperatures ranging from 20 to 29 degrees C.

109 strate the assembly of DNA nanostructures at constant temperatures ranging from 4 degrees to 50 degre

110 Activity within the shuttle-box under a constant temperature regime was also measured.

111 temperature dependence of Rsoil by assuming constant temperature sensitivity and linearly interpolat

112 led embryos maintained in darkness and under constant temperature show elevated non-oscillating level

113 ol maintained the desired temperature in the constant temperature simulation segments.

114 ship between volume and pressure of a gas at constant temperature." Some curricula may situate scienc

115 dence of the binding constant; the resulting constant-temperature system can then be described as a p

116 ifferent phases to coexist in equilibrium at constant temperature T and pressure P, the condition of

117 nce and works between two heat reservoirs at constant temperatures T h and T c (<T h ).

118 Our simulations were performed at constant temperature (T = 50 degrees C) and pressure (P

119 incubated in D(2)O as a function of time at constant temperature (T).

120 simulations leads to the conclusion that at constant temperature the size of fluid-phase domains, nf

121 At constant temperature, the rates of sulfate reduction in

122 nostic applications due to its simplicity of constant temperature, use of up to 4 to 6 primers (rende

123 e light inhibition of R(D) in the field at a constant temperature using the Kok method.

124 , glucose levels, temperature regulation vs. constant temperature warming).

125 are filled with CO2 and H2O and shaken in a constant-temperature water bath for at least 90 min.

126 s C slows parasite development compared with constant temperatures, whereas fluctuation around <21 de

127 The CPT reaction occurs at a constant temperature, which allows the probe to anneal t

128 decrease in the rate of plant respiration at constant temperature with the decrease in plant respirat

129 tes, but increased spore burden (relative to constant temperatures with the same mean) at 16 degrees

130 thin individuals and populations compared to constant temperatures with the same mean.

131 ynthesis and undergo mutual amplification at constant temperature, with apparent exponential growth a