ライフサイエンスコーパス: contractile machinery

1 ng infection-induced inflammation to myocyte contractile machinery.

2 ater strain to be transmitted to subcellular contractile machinery.

3 ed the effects of cAMP signaling on platelet contractile machinery.

4 troponin I, suggesting direct effects on the contractile machinery.

5 sts reversible cysteine modifications of the contractile machinery.

6 in regulation and structural support for the contractile machinery.

7 +) receptor, troponin C, to the actin-myosin contractile machinery.

8 mpensating for the marked dysfunction of the contractile machinery.

9 trol, indicating long-lasting effects on the contractile machinery.

10 cal insults caused by the muscle's disrupted contractile machinery.

11 ed independently of the establishment of the contractile machinery.

12 , pillar cells also possess Ca(2+)-dependent contractile machinery.

13 eater adenosine triphosphate delivery to the contractile machinery.

14 h regulating intracellular components of the contractile machinery.

15 cellular calcium transient and activate the contractile machinery.

16 mitochondrial function and the actin-myosin contractile machinery.

17 fasudil, a Rho-kinase inhibitor that blocks contractile machinery.

18 molecular mechanisms regulating the cardiac contractile machinery and a novel platform for therapeut

19 Patterned differences in the sarcomeric contractile machinery and cytoskeleton were suggestive o

20 ngle platelets and aggregates use actomyosin contractile machinery and integrin-mediated adhesion to

21 ate adhesion and deadhesion via cytoskeletal contractile machinery and sense mechanical properties of

22 ells, SRF is essential for expression of the contractile machinery, and its deletion triggers formati

23 rces and upregulation of the host's cellular contractile machinery are the motors for these strategie

24 eased intracellular Ca2+ availability to the contractile machinery but to a significant increase of m

25 parameters describing membrane currents and contractile machinery close to ranges reported in the li

26 uctural phenotypes (e.g., mitochondrial, and contractile machinery damage) and can be mitigated by re

27 expression, effectors such as the actomyosin contractile machinery drive embryo morphogenesis.

28 transcriptome during pregnancy to ready the contractile machinery for parturition.

29 ed embryos express greatly reduced levels of contractile machinery genes and, at the same stage, of r

30 omyosin networks, the major component of the contractile machinery, have shown that active contractil

31 rganization and activation of the actomyosin contractile machinery in a Rho kinase-dependent manner t

32 n filament plays a role in depression of the contractile machinery in this model.

33 The contractile machinery of heart and skeletal muscles has

34 The mechanism by which the contractile machinery of muscle is assembled and maintai

35 red for the organization and function of the contractile machinery of muscle.

36 ation of the cell membrane to the mechanical contractile machinery of the heart.

37 n myofibrils that harbor the sarcomere-based contractile machinery of the myocardium.

38 d niche relocation through the smooth muscle contractile machinery that generates centripetal constri

39 s, we show here that ERK also signals to the contractile machinery through its substrate, p90 ribosom

40 structural link between the basal lamina and contractile machinery to stabilize muscle membranes in r

41 ulu (Epb4.1l5) helps anchor the actin-myosin contractile machinery to the membrane to allow the dynam

42 In our studies, fibroblast contractile machinery was observed to function entirely

43 aminoglycan production and downregulation of contractile machinery, while IPAH-PAAF display a hyperpr