ライフサイエンスコーパス: mechanical change

1 pacity, little is known about the associated mechanical changes.

2 om ischemia-induced electrophysiological and mechanical changes.

3 leotide state are coupled to chemical and/or mechanical changes.

4 reflect a general cellular response to rapid mechanical changes.

5 ation, morphological changes often accompany mechanical changes [1], but it is unclear whether or whe

6 of two switch states related by large-scale mechanical changes: a syn-topology (helices of the diffe

7 ishes in the epithelium, the extent to which mechanical changes alter cell behavior in the tissue as

8 Both are associated with ECG and mechanical changes and clinical worsening over 1 year.

9 thus, platforms with dynamic and reversible mechanical changes are needed.

10 These mechanical changes are not observed in the suspended sta

11 omic Force Microscopy to investigate nuclear mechanical changes, arising from externally induced DNA

12 ng ions, metabolites, electrical signals and mechanical changes, as well as artificial intelligence-d

13 w deformation can be used to robustly detect mechanical changes associated with CRC progression.

14 hma and obesity include airway inflammation, mechanical changes associated with obesity, changes in a

15 stigate the real-time dynamic structural and mechanical changes associated with the neurodegeneration

16 ntractility.(10-13) Here, we investigate how mechanical changes at the cellular level of an oncogenic

17 Mechanical changes at the tibial insertion site were sim

18 nal microstructure mechanical model predicts mechanical changes based on ECM organization.

19 Moreover, Rho1 signaling is sensitive to mechanical changes, becoming active when tension decreas

20 solid-state SO(2) isomerism drives a larger mechanical change (benzene-ring rotation) in a neighbour

21 PR failed to reverse any mechanical changes but partially restored type IIa fiber

22 w mostly acknowledged that these age-related mechanical changes confer vulnerability of the heart to

23 the hypothesis that these compositional and mechanical changes create a progressive feed-forward loo

24 These mechanical changes, driven by putative molecular motors,

25 ells in 2D and 3D microenvironments revealed mechanical changes due to cytoskeletal modulation and ce

26 ng volume) would significantly influence the mechanical changes during coughing and thus cough flow.

27 sure abdominal wall myopathic histologic and mechanical changes during incisional herniation and its

28 keletal structure and remodel ECM to produce mechanical changes during tissue development and wound h

29 results point to a simple mechanism whereby mechanical changes experienced at the whole-tissue level

30 t abrogation of stomatal function reflects a mechanical change in the guard cell wall.

31 fness, provide a quantitative measure of the mechanical changes in actin filaments associated with co

32 To investigate the effects of mechanical changes in cytoplasmic structure on intracell

33 The observed structural, energetic, and mechanical changes in dark state G90D rhodopsin provide

34 -1 leukemia cells, we are able to induce the mechanical changes in ECs especially in the region of ce

35 Mechanical changes in fibrotic tissue impair global LA m

36 coupling of force production to chemical and mechanical changes in motors, and second, understanding

37 First, we discuss the mechanism of mechanical changes in the development and progression of

38 These mechanical changes in the extracellular matrix (ECM) sig

39 ce microscopy to characterize structural and mechanical changes in the F-actin cytoskeleton of cultur

40 ption also led to significant structural and mechanical changes in the lipid bilayer.

41 To examine mechanical changes in the membrane that are coupled with

42 Our findings suggest that mechanical changes in the microenvironment of cardiomyoc

43 Here we show that sensing these mechanical changes in the microenvironment requires the

44 The chemical and mechanical changes in the MOFs are extensively character

45 ration are responsible for morphological and mechanical changes in the oocyte.

46 A new study demonstrates that due to mechanical changes in the vessel wall, these animals exh

47 Osteogenic cells respond to mechanical changes in their environment by altering thei

48 (SWE) is a novel qualitative method to study mechanical changes in tissue.

49 teins and proteoglycans, contributes to both mechanical changes in tumors and corresponding cancer ce

50 od pressure) best for smoothing respiratory (mechanical) changes in blood pressure.

51 changes, and mechanoreceptors, sensitive to mechanical changes) in the genesis of the increased vent

52 may be an important factor in the intrinsic mechanical changes, in addition to instantaneous force-v

53 , a comprehensive analysis of the underlying mechanical changes including the effect of vehicle injec

54 The mechanical changes induced by salicylate may affect seve

55 chemical medium for achieving such a gradual mechanical change involves the elegant use of collagen-b

56 environment stiffens with age, and that this mechanical change is sufficient to cause age-related los

57 rent thresholds for electrophysiological and mechanical changes may exist in response to exercise tra

58 wards understanding what microstructural and mechanical changes may occur in the USL with POP onset a

59 Major morphological and mechanical changes occur in the starfish oocyte during m

60 detailed information about the chemical and mechanical changes occurring in hardened Portland cement

61 indings, metabolic changes appear to precede mechanical changes of LVH progression in the SHR model.

62 ing RBC membrane undulations, we measure the mechanical changes of RBCs as they undergo a transition

63 was measured and yields an estimation of the mechanical changes of the membrane over oxidation time.

64 ulder integrity but did experience long-term mechanical changes of the PM.

65 ing mechanical cell phenotypes and how these mechanical changes promote oncogenic transformation in s

66 tionship between fatigue and musculoskeletal mechanical changes remains elusive.

67 filamentous actin cytoskeleton and that this mechanical change rendered mouse and human cancer cells

68 vidence of OA appears to precede significant mechanical changes, suggesting that the cho mutation lea

69 can capture the observed dynamics of purely mechanical changes (swelling of distant leaves) induced

70 Instead there is a gradual mechanical change that accompanies the transcendence fro

71 sporters indicates that it produces a modest mechanical change that is likely to play a role in facil

72 Here, we discuss the mechanical changes that cancer cells undergo during meta

73 microenvironment, focusing especially on the mechanical changes that occur within the sarcomere, inte

74 Achilles tendinopathy (NIAT) induces morpho-mechanical changes to the Achilles tendon (AT).

75 tion of force and movement reflects only the mechanical changes to the length of the LCBD or whether

76 of cell wall xyloglucan-specific enzymes in mechanical changes underlying plant cell wall re-modelli

77 idopsis pollen tubes sense and/or respond to mechanical changes via a cell-surface receptor kinase Bu

78 These electro-mechanical changes were associated with waves of arrhyth

79 In the control group, no mechanical changes were observed after ajmaline.

80 tabolic changes are well aligned to cellular mechanical changes where Young's modulus decreased after

81 n this study, we elucidate the energetic and mechanical changes within the subdomains of the nucleoti

82 allowed imaging and quantifying CXL-induced mechanical changes without contact in a depth-dependent