ライフサイエンスコーパス: calcium spark

1 els may be involved in the generation of the calcium spark.

2 ac myocyte in response to a small artificial calcium spark.

3 ation, calcium transients, and intracellular calcium sparks.

4 s that correspond to experimentally observed calcium sparks.

5 s diastolic depolarization and an absence of calcium sparks.

6 um, leading to contraction, often results in calcium sparks.

7 These 'calcium sparks' activate calcium-dependent potassium (BK

8 with CAL-520 and confocal imaging to capture calcium sparks after iPSC-CMs were electrically paced.

9 Determination of the calcium spark amplitude distribution is of critical impo

10 ly, SK channels are transiently activated by calcium sparks and calcium influx during action potentia

11 eactive oxygen species signals that regulate calcium sparks and calcium influx pathways.

12 The effects of ryanoids on calcium sparks and transients were studied in voltage-cl

13 currents, whereas local calcium transients ("calcium sparks") and voltage-dependent potassium current

14 The properties of the mouse cardiac calcium spark are generally similar to those reported fo

15 'all-or-none' behaviour which suggests that calcium sparks are indeed elementary events underlying c

16 Calcium sparks are local regenerative releases of Ca(2+)

17 urse of calcium spark production showed that calcium sparks are more likely to occur during the initi

18 If, on the other extreme, calcium sparks are produced despite severe SR depletion,

19 s graded release by making the rate at which calcium sparks are recruited proportional to the whole c

20 , subcellular local calcium release signals, calcium sparks, are recruited to form each cellular calc

21 We sought to determine whether calcium sparks arise from a single or multiple calcium r

22 gorithm is detailed, using a simple model of calcium 'sparks' as a testbed.

23 e show, on general theoretical grounds, that calcium sparks, as observed in confocal line scan images

24 g this method we show the development of the calcium spark at high signal-to-noise levels.

25 en fixed sites within the cell are examined, calcium sparks have relatively constant amplitude but th

26 s among 23 exhibited measurable reduction of calcium sparks in a functional assay of RyR2 activity.

27 oli chemotaxis receptors, and termination of calcium sparks in cardiac muscle.

28 s developed to count and measure objectively calcium sparks in linescan images.

29 m for objective detection and measurement of calcium sparks in raw image data.

30 The exact nature of calcium sparks in the heart remains highly controversial

31 y of spontaneous calcium release events, or "calcium sparks," in smooth muscle, suggests an unanticip

32 um-coupled recruitment of multiple channels, calcium sparks might be abolished by a modest depletion

33 Examining calcium spark morphology and its relationship to the str

34 The sites at which calcium sparks occurred (Ca2+ release sites) were packed

35 the action potential and the time course of calcium spark production showed that calcium sparks are

36 further used to highlight the criticality in calcium spark propagation in relation to inter-dyad dist

37 es in cells with sparse t-tubules or enhance calcium spark recruitment in cells with dense t-tubules;

38 Calcium sparks represent the elementary events of SR Ca2

39 Calcium sparks result from the concerted opening of a sm

40 Calcium sparks, SR Ca(2+) reloading, and caffeine-evoked

41 The low variability of the amplitude of the calcium sparks suggests that more than one sarcoplasmic

42 lease can occur after ryanoid suppression of calcium sparks suggests the possibility of a new strateg

43 mic reticulum (SR), which was visualized as "calcium sparks." The ability of ICa to trigger calcium r

44 nnels, a reduction in functional coupling of calcium sparks to BK channel activation, and increases i

45 eveloped a method to interrogate recovery of calcium spark trigger probabilities and their amplitude

46 Calcium sparks were examined in enzymatically dissociate

47 During SR depletion, calcium sparks were robustly observed, albeit at reduced

48 Spontaneous calcium sparks were studied in rat ventricular myocytes

49 Localized calcium release events (calcium sparks) were studied in voltage-clamped cut twit

50 tivated by local transient calcium releases (calcium sparks), were present in Slo+/+ CCSM cells, but

51 Calcium sparks, which underlie the [Ca(2+)](i) transient