ライフサイエンスコーパス: energy supply

1 erent glycolytic pathways depending on their energy supply.

2 rsued as a means of starving tumors of their energy supply.

3 by affecting free-radical production and the energy supply.

4 The network may control energy supply.

5 generation of ATP as a main source of their energy supply.

6 brium between RGC activity and the available energy supply.

7 chondria to enhance local Ca2+ buffering and energy supply.

8 o a sustainable and environmentally friendly energy supply.

9 cular perfusion and not scarcity in cellular energy supply.

10 e local regulation of Ca(2+) homeostasis and energy supply.

11 more reliable than that with single type of energy supply.

12 exhibiting autonomous motion sustained by an energy supply.

13 rging station owners can ensure a continuous energy supply.

14 pportunity for a sustainable and carbon-free energy supply.

15 e oxygen evolution reaction (OER) process in energy supply.

16 conditions of high energy demand or reduced energy supply.

17 utamine to metabolic building blocks and the energy supply.

18 ailing heart is not limited to a compromised energy supply.

19 of the important contributors to the global energy supply.

20 ning of its supporting blood flow, and hence energy supply.

21 mation about their excitation mechanisms and energy supply.

22 e potential contribution of NG to the future energy supply.

23 terations in protein production and cellular energy supply.

24 or transcriptional repression of glucose and energy supply.

25 nal starving therapy by only cutting off the energy supply.

26 ors of B-lymphoid restriction of glucose and energy supply.

27 esigned to perform a random walk without any energy supply.

28 evels compatible with signaling and reliable energy supply.

29 key role in the realization of a sustainable energy supply.

30 nable various wearable devices and auxiliary energy supply.

31 are required to provide a sustainable, green energy supply.

32 a new avenue of CO2 reduction for renewable energy supply.

33 g transport and country-specific impacts for energy supply.

34 ts of neuronal swelling in conditions of low energy supply.

35 local microenvironment to enable a constant energy supply.

36 rns observed in plants starved for carbon or energy supply.

37 policy to ensure security of fresh water and energy supply.

38 ermediates to DMADP was limited by reductive energy supply.

39 k of drinking water treatment facilities and energy supply.

40 e photosynthesis and respiration and deplete energy supplies.

41 und production (20-550 Hz) without exceeding energy supplies.

42 performance, low-maintenance electrochemical energy supplies.

43 abilities across tissue sites with versatile energy supplies.

44 rentially adopt aerobic glycolysis for their energy supply, a phenomenon known as the Warburg effect.

45 levels of energy efficiency and decarbonized energy supply alone are not sufficient; widespread elect

46 sure that policy makers acknowledge risks to energy supplies and develop strategies or contingency pl

47 hemical fuels is a promising route to enrich energy supplies and mitigate CO(2) emissions.

48 Among the greatest uncertainties in future energy supply and a subject of considerable environmenta

49 c reticulum (ER) is exquisitely sensitive to energy supply and amino acid sources because deficiencie

50 Here, we report that YTHDF2 facilitates energy supply and antigen escape in B cell malignancies,

51 zyme Q biosynthesis, assuring an appropriate energy supply and antioxidant functions.

52 ular smooth muscle contractility and matches energy supply and demand by down-regulating energy-requi

53 udies have suggested that imbalances between energy supply and demand can result in "inflammatory hyp

54 The resultant shifts in energy supply and demand can result in metabolic acidosi

55 e-related diseases are tightly related to an energy supply and demand imbalance, which might be allev

56 dysfunction results in an imbalance between energy supply and demand in a failing heart.

57 ity and thus play a pivotal role in matching energy supply and demand in cardiac muscle.

58 ity and thus play a pivotal role in matching energy supply and demand in cardiac muscle.

59 processes that contribute to the control of energy supply and demand in the heart.

60 Matching energy supply and demand is critical in the bioenergetic

61 tive phosphorylation and thus contributes to energy supply and demand matching in cardiac myocytes.

62 rial Ca2+ uptake, with consequent effects on energy supply and demand matching.

63 These shifts in energy supply and demand result in localized regions of

64 (RA), or its ability to continually balance energy supply and demand, underpins human and economic h

65 ced inotropic response with no compromise in energy supply and demand.

66 ons to effectively manage imbalances between energy supply and demand.

67 wing pacing, suggesting impaired matching of energy supply and demand.

68 es in order to adapt with diurnal changes in energy supply and demand.

69 homeostasis by preventing mismatches between energy supply and demand.

70 th related to the brain injury of inadequate energy supply and disrupted ion homeostasis.

71 time, have serious impacts on human health, energy supply and ecosystems.

72 oxp1(+/-) mice, suggesting that insufficient energy supply and excessive oxidative stress underlie th

73 Capillary microfluidics integrate energy supply and flow control onto a single chip by usi

74 Depressed cortical energy supply and impaired synaptic function are predomi

75 to mitochondrial dysfunction with decreased energy supply and increased hepatic injury.

76 els the direct and indirect CO2 emissions of energy supply and infrastructure technologies within a n

77 impaired physiological response to nutrient energy supply and insulin stimulation.

78 Mitochondria are vital for cellular energy supply and intracellular signaling after stress.

79 ior volumetric growth is linked to increased energy supply and is associated with an overall increase

80 dium falciparum rely on glycolysis for their energy supply and it is unclear whether they obtain ener

81 oliferation and differentiation by providing energy supply and metabolites as signaling molecules.

82 cts on the solar energy integration into the energy supply and Net-Zero Implementation.

83 imates are generalizable to other indexes of energy supply and neuronal activity, and are sensitive t

84 ffer a therapeutic strategy to enhance brain energy supply and possibly cognitive function in AD.

85 venting MPT onset and subsequent compromised energy supply and proapoptotic cytochrome c release.

86 ially in neuronal cells which require a high energy supply and quick reactive responses.

87 of sustainably expanding and improving their energy supply and reliability while at the same time red

88 the implications of a shift to decentralised energy supply and storage across multiple local energy v

89 fatty acids and the role of mitochondria in energy supply and stress amelioration.

90 ma leptin concentrations to small changes in energy supply and suggest a basic role of substrate meta

91 t pathways for the decarbonization of global energy supply and the implementation of negative emissio

92 myocardial energy metabolism resides both in energy supply and utilization.

93 st maintain a continuous balance between its energy supply and work performed.

94 lure (CHF) may involve a relative deficit in energy supply and/or delivery.

95 discrepancy between the phenology of forage (energy supply) and the phenology of reproduction (energy

96 nvolved in cellular defense, fat metabolism, energy supply, and chaperones were identified as being o

97 Dams contribute to water security, energy supply, and flood protection but also fragment ha

98 l resources, climate protection, security of energy supply, and workplace collaborations are all exam

99 lity of PDGF-BB to be a vasoconstrictor when energy supplies are ample and to be a vasodilator under

100 tspots susceptible to dysfunction when their energy supplies are perturbed.

101 These data support the hypothesis that energy supplied as carbohydrate is more effective than e

102 t storage) of a controlled excess of dietary energy supplied as different carbohydrate sources or as

103 plied as carbohydrate is more effective than energy supplied as fat in sparing protein oxidation in e

104 consortium provides the host with an optimal energy supply as it shuttles between the upper oxic and

105 with mannitol used As(III) as a supplemental energy supply as reflected by enhanced growth and increa

106 portance for the transition to a sustainable energy supply as well as for a wide variety of other tec

107 erlying cytotoxic edema in conditions of low energy supply, as observed in cerebral ischemia.

108 Energy supplied at around 3,500 kcal/cap/d minimized mor

109 brain is an energy hog, consuming available energy supplies at a rate out of all proportion to its r

110 rmed AMPK from a "fuel gauge" that regulates energy supply at the cellular level to a sensing and sig

111 Advection of gas and ice transports energy, supplied at depth as latent heat of clathrate de

112 city is not a passive response to changes in energy supply but derives from the way in which environm

113 glia use oxidative phosphorylation for their energy supply, but rely on the ability to undergo a meta

114 d membrane vesicles accumulated Sb(III) with energy supplied by NADH oxidation, reflecting efflux fro

115 e cells accumulated MAs(III) > Rox(III) with energy supplied by NADH oxidation, reflecting efflux fro

116 non-fossil energy as a proportion of primary energy supply by 2030.

117 d with ion pumps; neurons may increase their energy supply by activating glycolysis in astrocytes to

118 feeds get converted into a benign metabolic energy supply by an interplay between the membrane's spa

119 e cell's energy needs, and it also regulates energy supply by controlling the number, quality, and dy

120 lls release vasodilators that increase their energy supply by dilating local blood vessels, a mechani

121 Active neurons increase their energy supply by dilating nearby arterioles and capillar

122 ic Ca(2+) Cytosolic Ca(2+), in turn, secures energy supply by pushing mitochondrial metabolism either

123 tic repair signaling axis that boosts axonal energy supply by reprogramming mitochondrial trafficking

124 en the crucial roles for mitochondria in ATP energy supply, Ca(2+) handling and cell death, mitochond

125 ochondria to basic cellular function such as energy supply, calcium homeostasis and, more recently, p

126 A diminished energy supply can be rationed based on the relative ATP

127 dous amount of energy and reductions in that energy supply can have lethal consequences.

128 vances in the phenology of the environmental energy supply caused by climate change.

129 This endogenous energy supply chain is coupled with nitrogen transfer fo

130 ombined capacity of current agricultural and energy supply chains, including grain, petroleum, and co

131 ility under different load demands and clean energy supply conditions.

132 in CQR lines is not directly coupled to the energy supply, consistent with a model in which mutant P

133 As limitations in energy supply constrain neural function, high-probabilit

134 ate on Drosophila locomotion, perhaps due to energy supply constraints.

135 optimal case, greenhouse gas emissions from energy supply could be reduced by more than 75% and part

136 e show that, after transient blockade of the energy supply, cytotoxic edema may be reversed by tempor

137 oupling, modulation of contractile function, energy supply-demand balance (including mitochondrial fu

138 By uncoupling energy supply-demand balance, glycolytic oscillations ma

139 mitochondrial metabolism to daily changes in energy supply/demand and thereby, serve as a rheostat fo

140 llular functions are powered by a continuous energy supply derived from cellular metabolism.

141 In equilibrium without energy supply, directional motion cannot be sustained wi

142 on for synthetic formatotrophy has been slow energy supply due to slow formate dehydrogenase activity

143 To conserve energy supplies during fasting, A-ZIP/F-1 (but not contr

144 T3 represents a novel pathway for control of energy supply during neuronal activity that is critical

145 medium were required as building blocks and energy supply during wri1-1 seedling establishment.

146 ecosystems suggest that FCL is determined by energy supply, environmental stability, and/or ecosystem

147 neuron, we show that a tipping point of the energy supply exists, below which the cell volume rapidl

148 eostasis in periods of high-energy demand or energy supply fluctuations.

149 The formation of H(2)O(2) is driven by the energy supplied for spraying water, and caused by restri

150 ant for plant survival because it guarantees energy supplies for growth and development during plant

151 of early mortality while ensuring sufficient energy supply for both it and the vector.

152 erhaps partly due to a substantially reduced energy supply for excitation-contraction coupling result

153 coactivator 1-alpha (PGC1alpha) to maintain energy supply for locomotion and survival.

154 tochondria in dendrites that provide a local energy supply for mRNA translation at synapses.

155 al for microglial respiratory metabolism and energy supply for phagocytosis, and its expression is en

156 evolution reaction may provide a sustainable energy supply for the future, but its commercial applica

157 pre-condition can effectively reduce ocean's energy supply for typhoon intensification during typhoon

158 e-induced withdrawal) in planarians requires energy supplied from glucose metabolism.

159 power to large-scale targets, such as wired energy supplies from batteries or wireless energy transd

160 with, or larger than, the entire present-day energy supply from all sources combined.

161 contribution of nuclear power to the global energy supply has become somewhat uncertain.

162 Lack of an appropriate energy supply has been thought to induce cell death in a

163 phate shuttle (G3PS), whose role in neuronal energy supply has remained elusive.

164 to low oxygen conditions, which ensure basic energy supply, have been well characterized, adaptation

165 rt system is particularly sensitive to added energy supply (i.e. reductive stress), which exponential

166 Consequently, the brain's limited energy supply imposes constraints on its information pro

167 To maintain energy supplies in the tissues, neutrophils consumed ext

168 to adapt their metabolism to the fluctuating energy supply in a natural environment.

169 min B1) is ubiquitous and essential for cell energy supply in all organisms as a vital metabolic cofa

170 e supply of nutrients (mTORC1 pathway) or of energy supply in cells (AMPK pathway).

171 ctivated fetal gene expression, and restored energy supply in failing cardiomyocytes.

172 for both protein translation and respiratory energy supply in most metazoan mitochondria.

173 Glucocorticoids (GCs) regulate energy supply in response to stress by increasing hepati

174 physical endurance that indicates diminished energy supply in the body.

175 genous glucose production to maintain normal energy supply in the body.

176 body consumption as an alternative source of energy supply in the heart.

177 imitation of nutrient availability and light energy supply in wild-type Arabidopsis produced phenotyp

178 failing heart is hypothesized to suffer from energy supply inadequate for supporting normal cardiac f

179 c MFA of the associated steel, aluminum, and energy supply industries.

180 velopment are the consequences of diminished energy supply: inhibition of beta-oxidation, leptin resi

181 sors is integrating transport functions with energy supply into the device.

182 These shape transformations consume energy, supplied invariably by the activity of proteins.

183 is that can be recovered by ion pumps if the energy supply is adequate.

184 uding Alzheimer's disease, where the brain's energy supply is decreased.

185 able energy, while its use for an industrial energy supply is impaired by low efficiency.

186 g circuits, which promote energy intake when energy supply is limited.

187 Thus, Miro1 is a key determinant of how energy supply is matched to energy usage in neurons.

188 Consequently, if the external energy supply is removed, the amplitude of oscillations

189 rates to neurons particularly when exogenous energy supply is restricted.

190 mitigating all emissions associated with UK energy supply is roughly double that of mitigating only

191 s to adapt to life under conditions of short energy supply is to use the by-product pyrophosphate to

192 We conclude that short perturbations of energy supply lead to a lasting potentiation of synaptic

193 Energy supply limits development through fuel constraint

194 ng tissue, which might accumulate and impair energy supply locally.

195 Next to energy efficiency and low-carbon energy supply, material efficiency is the third pillar o

196 enced by several factors, including maternal energy supply, maternal stature, disease status, smoking

197 Our results suggest that energy supply may be a limiting factor for the benefit o

198 lls, suggesting that deprivation of cellular energy supply may be an effective way to overcome multid

199 lusion, a HIF-mediated shift toward improved energy supply may protect against acute tubular injury i

200 our results imply that a diminished cerebral energy supply may underlie the decline in brain areas as

201 ed generation of these forces may require an energy supply mediated by the guanidino kinases, creatin

202 the production site of medical isotopes, the energy supply needed for production, transportation, and

203 l recovery (biogenesis) that may restore the energy supply needed to fuel restorative metabolic proce

204 ting that energy needs for recovery exceeded energy supply of compromised blood flow.

205 he target of PLA, potentially inhibiting the energy supply of Mucor.

206 to guarantee a flexible, stable, and secure energy supply operation.

207 This allows the assessment of novel energy supply options, but is insufficient for understan

208 f TENG for the application in IoTs and AI as energy supply or self-powered sensor, but also presents

209 ontribute to alterations in cell signalling, energy supply or the onset of proliferation.

210 advantageous under conditions of diminished energy supply, or of reduced temperature, turning faster

211 t their regenerative capacity and the cell's energy supplies - particularly troublesome for energy-de

212 on the metabolic state of the cell, yet the energy-supply pathways to the nuclear compartment are un

213 lectricity would become the dominant form of energy supply, posing challenges and opportunities for e

214 M 2-deoxyglucose in the absence of exogenous energy supply produced widespread cell death throughout

215 However, there are energy supply-related differences between vertebrates in

216 We hypothesized that overall cerebral energy supply remains constant, regardless of overall me

217 , which limits synthetic building blocks and energy supply required for the proliferation of cancer c

218 th systolic failure, consistent with reduced energy supply reserve.

219 CO(2) capture retrofits that utilize various energy supply sources to meet parasitic demands; (2) scr

220 The NAD(H)-loaded NPs improved cellular energy supply, suppressed inflammation and prevented inf

221 analytical elements: scenario projection of energy supply systems, temporally explicit life cycle mo

222 -air batteries (SZABs) is crucial for marine energy supply systems.

223 ion models based on a variety of alternative energy supply technologies are considered the best way t

224 e present a simple, new model for evaluating energy-supply technologies and their improvement traject

225 Stable neural function requires an energy supply that can meet the intense episodic power d

226 e show that the macronutrient composition of energy supply that minimizes mortality varies with age.

227 nthetic active matter have access to a local energy supply that serves to keep the system out of ther

228 te change without adversely affecting global energy supply, there is growing interest in the possibil

229 tical modulator can constitute an electrical energy supply through the photovoltaic effect, which is

230 ng archaea, which thrive at a constantly low energy supply, thus offering a biochemical explanation f

231 gnaling that activates PAK5 and boosts local energy supply, thus protecting axon survival and facilit

232 eometric parameters as well as the amount of energy supplied to initiate the waves.

233 very efficient spraying and the low internal energy supplied to the ions.

234 on and cell-cycle progression, thus allowing energy supply to be matched by energy demands.

235 xcitation energy transfer (EET) to fit light energy supply to biochemical demands.

236 ntify phosphocreatine as the main endogenous energy supply to brain cells, and propose revising our v

237 pathways to increase ATP synthesis, matching energy supply to demand.

238 ctical applications ranging from sustainable energy supply to light driven chemistry.

239 erosis and indicate that manipulation of the energy supply to motoneurons as well as inhibition of p7

240 of cerebral blood flow to adequately couple energy supply to neural function.

241 Memory consolidation requires rapid energy supply to neurons.

242 Interruption of energy supply to peripheral axons is a cause of axon los

243 a for replacement, thereby maintaining local energy supply to support central nervous system (CNS) su

244 nergy use, and explain how disruption of the energy supply to synapses leads to neuropathology.

245 and neuronal proteins necessary for optimal energy supply to the brain and for the reuptake and recy

246 f intracellular calcium homeostasis, loss of energy supply to the cell, increased activity of oxidisi

247 ries, which may partly be due to a decreased energy supply to the heart resulting from low fatty acid

248 pid induction of genes in cytotoxic program, energy supplies, transcription, and translation by recal

249 change, global warming, urban air pollution, energy supply uncertainty and depletion, and rising cost

250 (2) and are well known to play a key role in energy supply via fermentative metabolism in oxygen-limi

251 embles communities within the constraints of energy supply via regional exchange of species that diff

252 To test this hypothesis, energy supply was manipulated by varying flux rate throu

253 Cellular energy supply was preserved, AMPK activation was absent,

254 f the body and thereby fosters intracellular energy supply, we hypothesized that intranasal insulin r

255 ns in mtDNA can cause a shortage in cellular energy supply, which can lead to numerous mitochondrial

256 is essential in enhancing the quality of the energy supply, which helps to gain a better understandin

257 cerebral processing is limited by a constant energy supply, which thus requires attentional regulatio

258 ls that rapid economic growth and sufficient energy supply will foster China's urbanization in all th

259 x Ca(2+) plays an important role in matching energy supply with demand in cardiac myocytes.

260 network of reactions is involved in matching energy supply with demand in the heart.

261 Precise matching of energy supply with demand requires delicately balanced c

262 nisms are likely to work in concert to match energy supply with demand.

263 mass would help to significantly decarbonize energy supply with regionally sourced feedstock, while a