コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 well as smaller events not detectable as Ca sparks).
2 a spontaneous RyR opening triggers a Ca(2+) spark.
3 f RyR open probability favoring long-lasting sparks.
4 receptor (RyR) release channels that produce sparks.
5 rs strongly influences the frequency of Ca2+ sparks.
6 er local Ca(2+) release, resulting in Ca(2+) sparks.
7 receptor (RyR) release channels that produce sparks.
8 sed amplitude compared with diastolic Ca(2+) sparks.
9 ing to a different spatial firing pattern of sparks.
10 efractoriness and other properties of Ca(2+) sparks.
13 ian cancer, high-grade serous carcinoma, has sparked a major effort within the research community to
14 ional drilling and hydraulic fracturing have sparked a natural gas boom from shale formations in the
15 tinued democratization of DNA sequencing has sparked a new wave of development of genome assembly and
19 s as Vectors for Drug-Resistant Bacteria has sparked a renewed interest in bed bug vector potential.
20 rategies for the iterated prisoner's dilemma sparked a surge of interest in the surprising fact that
21 olve to become transmissible between humans, sparking a major influenza pandemic, is a matter of grea
22 first importation spread to the DRC in 2006, sparking a series of outbreaks that continued into 2011.
25 100 nmol/L) promoted spontaneous Ca wave and spark activity, a cellular phenotype of ryanodine recept
26 significantly higher spontaneous Ca wave and spark activity, a typical cellular phenotype of CPVT.
27 f overlap-driven actinyl bond covalency will spark activity, and extend to numerous applications of R
29 allowed us to separately measure recovery of spark amplitude and delays between successive sparks, an
30 cent studies have suggested that recovery of spark amplitude is controlled by local sarcoplasmic reti
31 cent studies have suggested that recovery of spark amplitude is controlled by local sarcoplasmic reti
32 ith isoproterenol (isoprenaline) accelerated spark amplitude recovery and decreased spark-to-spark de
33 ith isoproterenol (isoprenaline) accelerated spark amplitude recovery and decreased spark-to-spark de
37 limited availability of software for Ca(2+) spark analysis in two-dimensional x-y image stacks prese
38 re, the model captures the details of Ca(2+) spark and nonspark-based SR Ca(2+) leak, and it produces
39 h CaMKIIdelta inhibition, CST reduced Ca(2+) spark and wave frequency, reduced Ca(2+) spark dimension
40 lular cytosolic Ca(2+) signals (i.e., Ca(2+) sparks and [Ca(2+)]i transients, respectively) in isolat
43 hannels are transiently activated by calcium sparks and calcium influx during action potentials and c
44 y demonstrated that Ni(2+) suppressed Ca(2+) sparks and consequently spontaneous transient outward K(
46 nnels were activated by intracellular Ca(2+) sparks and mediated spontaneous transient outward curren
47 nhanced elementary Ca release measured by Ca sparks and promoted RyR2 (ryanodine receptor) structural
50 ollectively as SR Ca leak (which includes Ca sparks and waves as well as smaller events not detectabl
53 her localized Ca(2+) release, such as Ca(2+) sparks and waves, can cause local sarcomere contraction.
55 park amplitude and delays between successive sparks, and data were interpreted quantitatively through
56 OS production on RyR2 open probability, Ca2+ sparks, and the myoplasmic calcium concentration ([Ca2+]
57 he recent United States measles epidemic has sparked another contentious national discussion about ch
64 ons for zinc dynamics and establish the zinc spark as an extracellular marker of early human developm
67 showed a larger cytosolic amplitude (Ca(2+) sparks) but smaller depletion (Ca(2+) blinks) than relea
68 his abrupt shift in isoprene photooxidation, sparked by human activities, speaks to ongoing and possi
72 ase in 1970, there was a flurry of activity, sparked by the "War on Cancer," to identify human cancer
75 PIs) are receiving increasing interest, much sparked by the realization that they represent druggable
77 g RyR open probability promotes long-lasting sparks by potentiating Ca-induced Ca release (CICR).
79 t the transition from normal to long-lasting sparks can occur when ryanodine receptor (RyR) open prob
84 ered intermetallic nanoparticles (iNPs) have sparked considerable interest in fuel cell applications
85 of Europe's most important fisheries and has sparked considerable scientific inquiry, most recently o
86 between chiral molecules or their assemblies sparked considerable scientific interest both for their
87 de analyses based on summary statistics have sparked controversy about the possibility of interbreedi
88 genomes has complicated their phylogenomics, sparking controversy over the origins and closest relati
89 yeast species in every subphylum of Dikarya) sparked curiosity but necessitated further efforts to ob
90 syndrome and of its constituent symptoms has sparked debate and controversy on the very definition of
91 n in dialysis patients, and examine the data sparking debate over appropriate methods for diagnosing
92 -in mouse prevented the decrease in spark-to-spark delays seen with beta-adrenergic stimulation; (5)
93 -in mouse prevented the decrease in spark-to-spark delays seen with beta-adrenergic stimulation; (5)
96 rk amplitude recovery and decreased spark-to-spark delays; (2) activating protein kinase A (PKA) with
97 rk amplitude recovery and decreased spark-to-spark delays; (2) activating protein kinase A (PKA) with
98 plitude recovery but did not affect spark-to-spark delays; (3) inhibiting PKA with H89 retarded ampli
99 plitude recovery but did not affect spark-to-spark delays; (3) inhibiting PKA with H89 retarded ampli
100 ed amplitude recovery and increased spark-to-spark delays; (4) preventing phosphorylation of the RyR
101 ed amplitude recovery and increased spark-to-spark delays; (4) preventing phosphorylation of the RyR
102 sms and conditions that produce long-lasting sparks, demonstrating the existence of an optimal range
104 2+) spark and wave frequency, reduced Ca(2+) spark dimensions, increased sarcoplasmic reticulum Ca(2+
105 nanoparticles (NPs) are fabricated by using spark discharge and manipulating the electric field.
107 deuterated gases and reagents to compare the spark-discharge products of a "deuterated world" with th
108 ative feedback response by triggering Ca(2+) sparks, discrete events that initiate arterial hyperpola
109 of subcellular Ca cycling to examine how Ca spark duration is influenced by the number of functional
114 an unmeasured trait drives LES covariation, sparking efforts to identify the latent physiological tr
115 ically and computationally that long-lasting sparks emerge as a collective dynamical behavior of the
117 and drive ryanodine receptor-mediated Ca(2+) sparks, enabling large-conductance Ca(2+)-activated K(+)
121 revious studies have used analysis of Ca(2+) sparks extensively to investigate both normal and pathol
122 esent a believed-novel approach by which the spark fidelity of a RyR cluster can be predicted from st
123 nagement, and it is critically influenced by spark fidelity, i.e., the probability that a spontaneous
126 RyR2-stabilizer K201 markedly reduced Ca(2+) spark frequency in RyR2(R4496C+/-)-TAC cardiomyocytes.
128 om RGS4(-/-) mice show an increase in Ca(2+) spark frequency under basal conditions and after the add
129 ng experiments showed that postpacing Ca(2+) spark frequency was highest in intact CPVT PCs, but such
130 eased sarcoplasmic reticulum [Ca], increased spark frequency, and reduced expression/localization of
133 rotective carbon dioxide gas enshrouding the sparks from an ESU pencil effectively prevents fire in a
136 interest in these intermediates which might spark further research into their untapped potential for
139 lyst systems; Fe nanoparticles from a plasma spark generator and cobaltocene and nickelocene precurso
142 Due to its high specificity and sensitivity, SPARK has the potential to advance PPI analysis and disc
143 ed to improve control over tumor growth have sparked hope that long-lived control of cancer through s
145 ization, each involving greater operation of spark-ignited (SI) engines under higher-load, knock-limi
147 rom two flexible-fuel vehicles equipped with spark ignition engines, with one wall-guided direct inje
148 organic compounds (VOCs) for a wide range of spark ignition gasoline vehicles meeting varying levels
149 red in vehicle exhaust from three light-duty spark ignition vehicles operating on summer and winter g
151 ed of model year 2012 vehicles equipped with spark-ignition (SI) and either port fuel injection (PFI)
152 fuel injection car (MPFI), direct-injection spark-ignition car (DISI), and flex-fuel car (FFV) repre
153 he filtration experiments was sampled from a spark-ignition direct-injection (SIDI) gasoline engine.
155 e software for automatic detection of Ca(2+) sparks in line-scan images has greatly simplified data a
157 a(2+) signaling in situ, by analyzing Ca(2+) sparks in permeabilized mouse cardiomyocytes under a bro
158 tability threshold for the formation of Ca2+ sparks in terms of the RyR2 gating transition rates.
159 orbiting double stars at close distances has sparked increasing scientific interest in determining wh
160 evelopment of a refractory period for Ca(2+) spark initiation after Ca(2+) release in cardiac myocyte
164 d by the MLL (KMT2A) fusion partner TET1 has sparked intense research to understand the role this new
165 ich physical phenomena at the interface, has sparked intensive research on multiferroic heterostructu
166 nd water and ion transport in C1C2, and will spark interest in further experimental studies on the ch
167 d water wasting and lower blood pressure has sparked interest in developing new classes of antihypert
168 genome-wide association studies (GWASs) have sparked interest in gene cataloguing in the context of a
169 as a key regulator of energy expenditure has sparked interest in identifying novel soluble factors ca
170 These diverse multisystem influences have sparked interest in strategies that might favorably modu
171 cadian clocks on mammalian transcription has sparked interest in the interregulation of transcription
172 tassium levels on a more chronic basis, have sparked interest in the treatment of hyperkalemia, as we
175 otic event termed the "zinc spark." The zinc spark is dependent on and occurs coordinately with intra
177 e blocked by tetracaine or ruthenium red, Ca sparks lasting hundreds of milliseconds have been observ
178 o investigate the possibility of late Ca(2+) spark (LCS) activity in intact isolated cardiac myocytes
179 lped to identify new patient care issues and sparked management discussions, especially for sedation,
180 of tubule-driven depolarizations and Ca(2+) sparks may contribute to the arrhythmic burden in heart
183 ased spontaneous sarcoplasmic reticulum Ca2+ sparks mediated by enhanced phosphorylation of the ryano
184 heir potent in vitro antiplasmodial activity sparked new endeavors to synthesize members of this fami
185 ted by a series of recent studies which have sparked new hypotheses regarding the function of claustr
187 on single-atom catalysts (SACs), which have sparked new interests in electrocatalysis because of the
189 monostable and excitable, while long-lasting sparks occur when the network dynamics possesses multipl
190 We showed that the probability of a Ca2+ spark occurring when a single RyR2 in the cluster opens
192 ese vesicles and the demonstration that zinc sparks originate from them provides a quantitative frame
196 and aggregation of human populations, which spark outbreaks and sustain transmission, respectively,
198 new pathway for fabricating WCu alloys using spark plasma infiltrating sintering of copper-coated gra
202 g an electrically insulated graphite die for Spark Plasma Sintering (SPS) is described, which allows
204 us ceramic/metal composites were obtained by spark plasma sintering (SPS) using ZrO2 and lamellar met
205 ther reduced to 0.7 W/m.K by Sb alloying and spark plasma sintering (SPS), which introduce additional
210 ow-voltage, vacuum spark, via a pulsed DC in Spark Plasma Sintering process, plays a critical role in
211 converting "solid" carbon nanofibers with a Spark Plasma Sintering system under low temperature and
212 bricated by either conventional sintering or spark plasma sintering using micro- and nano-sized powde
214 al applications such as microwave sintering, spark plasma sintering, and additive manufacturing are a
221 lled Thunder built on the open-source Apache Spark platform for large-scale distributed computing.
222 imental observations illustrated that Ca(2+) spark production is intimately tied to the activity of b
223 ive selection of embryos based on their zinc spark profile significantly improved developmental outco
226 spark builds upon the open source Hadoop and Spark projects, bringing domain-specific features for bi
227 used to highlight the criticality in calcium spark propagation in relation to inter-dyad distances.
230 yR2 open probability increases, and the Ca2+ spark rate changes in a manner consistent with experimen
233 retching, the X-ROS-induced increase in Ca2+ spark rate is transient, so that long-sustained stretchi
245 ially-confined Ca2+ release events known as "sparks." RyR2s are organized in a lattice to form cluste
248 us detection of GFP-RyR2 clusters and Ca(2+) sparks showed that Ca(2+) sparks originated exclusively
249 nomic inequality in contemporary society can spark skepticism about the existence of economic opportu
251 work in a coordinated manner to grade Ca(2+) spark/spontaneous transient outward currents (STOCs) in
252 work in a coordinated manner to grade Ca(2+) spark/spontaneous transient outward currents (STOCs) in
255 e to this challenge is a modified version of Spark SQL, a distributed SQL execution engine, that hand
256 ration enables smooth muscle to grade Ca(2+) spark/STOC production and thus precisely tune negative e
257 ontribution of each Ca(2+) channel to Ca(2+) spark/STOC production depends upon their biophysical pro
258 t the voltage-dependent triggering of Ca(2+) sparks/STOCs is not tied to a single conductance but rat
259 ganization in transcriptional regulation has sparked substantial interest in the molecular mechanisms
260 ry of emergent phenomena in 2D materials has sparked substantial research efforts in the materials co
263 ts realistic Ca(2+) sparks and robust Ca(2+) spark termination across a wide range of geometries and
265 nt regulation of the RyR is not critical for spark termination, but it can explain the exponential ri
266 ncourage experienced doctors to rekindle the spark that initially motivated them to become physicians
267 atial-resolution model of the cardiac Ca(2+) spark that requires supercomputing resources for executi
268 a mammalian egg initiates a series of 'zinc sparks' that are necessary to induce the egg-to-embryo t
269 itive-functional linguists that we hope will spark the cross-disciplinary discussion necessary to pro
271 ngletons under a range of stress conditions, sparking the idea that regulatory robustness allowed a w
273 the extracellular space in a prominent "zinc spark." The ability of the gamete to mount a zinc spark
274 ions in an exocytotic event termed the "zinc spark." The zinc spark is dependent on and occurs coordi
275 at The Children's Hospital of Philadelphia, Spark Therapeutics, US National Institutes of Health, Fo
277 hich implements parallel processing based on Spark to increase the speed and efficiency of performing
278 h a knock-in mouse prevented the decrease in spark-to-spark delays seen with beta-adrenergic stimulat
279 h a knock-in mouse prevented the decrease in spark-to-spark delays seen with beta-adrenergic stimulat
282 rated spark amplitude recovery and decreased spark-to-spark delays; (2) activating protein kinase A (
283 rated spark amplitude recovery and decreased spark-to-spark delays; (2) activating protein kinase A (
284 erated amplitude recovery but did not affect spark-to-spark delays; (3) inhibiting PKA with H89 retar
285 erated amplitude recovery but did not affect spark-to-spark delays; (3) inhibiting PKA with H89 retar
286 89 retarded amplitude recovery and increased spark-to-spark delays; (4) preventing phosphorylation of
287 89 retarded amplitude recovery and increased spark-to-spark delays; (4) preventing phosphorylation of
288 lum (SR) refilling whereas refractoriness of spark triggering depends on both refilling and the sensi
289 lum (SR) refilling whereas refractoriness of spark triggering depends on both refilling and the sensi
290 the plasma generated by low-voltage, vacuum spark, via a pulsed DC in Spark Plasma Sintering process
292 derstand the molecular mechanism of the zinc spark we combined four physical approaches that resolve
295 Despite a significant SR Ca(2+) leak, Ca(2+) sparks were very rare events in control conditions.
296 of CICR in the heart is the calcium (Ca(2+)) spark, which arises from a cluster of ryanodine receptor
297 e and transition metal dichalcogenides, have sparked wide interest in device physics and technologies
299 the range of 10 to 100 ms, but long-lasting sparks with durations of several hundred milliseconds to
300 e automatic detection and analysis of Ca(2+) sparks within x-y image stacks, implemented as a plugin
WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。