ライフサイエンスコーパス: internal pressure

1 he capsid with DNA and encounters increasing internal pressure.

2 a higher density in the capsid with a higher internal pressure.

3 gether enable the polymer chips to withstand internal pressures above 20 MPa (approximately 2900 psi)

4 ontrols the bonding strength by changing its internal pressure and exploiting the mechanics of interf

5 astic modulus and failure mode dependence on internal pressure and on wall integrity are borne out by

6 Their size, shape and internal pressure are determined by the competition betw

7 cuffs' outer diameter, length, material, and internal pressure are the main determinants of sealing e

8 These capsids can stand with an internal pressure as high as approximately 50 atmosphere

9 ed by local zeta potential control induce an internal pressure at the microchannel intersection, resu

10 ing, flattening of the vesicle increases the internal pressure beyond the bursting point.

11 Language processing is hastened not only by internal pressures but also externally by turn-taking in

12 The walls are rigid to resist large internal pressures, but remarkably plastic to adapt to a

13 We show that these shells can relieve internal pressure by bursting intermittently, shrinking

14 nditions may have resulted in a large enough internal pressure decrease to promote the metastable cry

15 nitor genome loss upon heating, we find that internal pressure destabilizes the virion, resulting in

16 of the loading process; correspondingly, the internal pressure drops 10-fold to a few atmospheres (ma

17 tion is presumed to be due to an increase in internal pressure due to optothermal heating of the CNTs

18 olvent cohesion, such as surface tension and internal pressure, gave inferior correlations.

19 required stability needed to withstand high internal pressures generated upon genome loading and con

20 henomena where changes in cell stiffness and internal pressure have been implicated.

21 he inevitable result of gradually increasing internal pressure in a cylindrical cell.

22 This internal pressure increases to ca. 1.9 GPa at the highes

23 We suggest that, on heating, the internal pressure increases, causing the DNA to exit-pro

24 ternal osmotic pressures, which reveals that internal pressure is capable of powering ejection of the

25 ly hemifusion, but also complete fusion when internal pressure is introduced in the model.

26 d length (n: 288, p < 0.001), along with the internal pressure (n: 288, p < 0.001), were the only pre

27 ing cuffs were evaluated for 24 hrs using an internal pressure of 30 cm H2O.

28 NA condensation experiments, we measured the internal pressure of DNA arrays as a function of the DNA

29 de the first experimental evidence of a high internal pressure of tens of atmospheres within a eukary

30 Internal pressure of the embryo and tissue elastic prope

31 y, the confinement is unyielding against the internal pressure of the microbombs, thereby enabling se

32 y, the solute dipolarity/polarizability, the internal pressure of water and the solubility parameter

33 ameters of carbon dioxide and water, and the internal pressure of water.

34 d together using this method could withstand internal pressures of >2250 psi, more than 1 order of ma

35 of oropharyngeal secretions simulant at cuff internal pressures of 15-30 cm H2O.

36 virus capsid; however, the in vivo effect of internal pressure on infection of bacteria is unknown.

37 e of the solution where the solute exerts an internal pressure on the boundary of the solution retain

38 of activation obtained using either solvent internal pressure or applied external pressure are very

39 eriments demonstrate that increasing solvent internal pressure or applied external pressure reduces t

40 olved in organic solvents with large solvent internal pressures ( partial differentialU/ partial diff

41 tial energy, entropy, free potential energy, internal pressure, pressure, and bulk modulus.

42 trachea contact area was determined using an internal pressure sensor within a tracheal model upon cu

43 After one viral genome is encapsidated, the internal pressure signals termination of packaging and e

44 hat cytoskeletal polymerization generates an internal pressure tending to keep cells convex, we find

45 ubes by using either diffusion or changes in internal pressure that are produced through body motion

46 s indicates that herpesviruses withstand the internal pressure that is generated during DNA genome pa

47 Below a critical internal pressure, the narrow ligaments between the void

48 Use of internal pressure thereby provides unique insight into t

49 mers tied together by constraints exhibit an internal pressure; this idea is used to analyze physical

50 action during maturation may increase capsid internal pressure to trigger proper uncoating of adenovi

51 mp the DNA against the increasingly built-up internal pressure (up to 20 atm) in the capsid.

52 l capsids occurs under circumstances of high internal pressure, we also compute how much pressure a c

53 e induced by the QES, acting like a negative internal pressure, which drives the crystal into a "supe

54 s been developed to predict the shape of and internal pressure within the animal in response to a giv

55 Despite internal pressure within the safe range, transmitted tra

56 n vitro, the ejection depends sensitively on internal pressure within the virus capsid; however, the