ライフサイエンスコーパス: production

1 itochondrial Ca(2+) uptake to accelerate ATP production.

2 stis but does not control basal testosterone production.

3 tainability challenges while increasing food production.

4 ating that Fig4 is also required for PI3,5P2 production.

5 selectively required for IgG but not for IgM production.

6 ized with CD63, which is necessary for virus production.

7 replication, late gene expression, and virus production.

8 ceived trade-off between protection and food production.

9 in a paucity of tuft cells and acetylcholine production.

10 er value-added processes such as liquid fuel production.

11 ed by the Pel synthase machinery for polymer production.

12 sarcomeres within a myofibril affects force production.

13 ng at ~800 ms, around response selection and production.

14 d species in Florida vegetable plasticulture production.

15 trade-offs between carbon use for growth and production.

16 m under the primary function of agricultural production.

17 ansition from a laboratory scale to scale-up production.

18 lagic habitat which decreased in zooplankton production.

19 instead of the fresh fruit juice in vinegar production.

20 megakaryocyte (MK) development and platelet production.

21 pathway in peroxisomes and leads to H(2)O(2) production.

22 ir antitumor inflammatory cytokine/chemokine production.

23 and microbiome, leading to increased lactate production.

24 macrophage activation by impairing IL-1beta production.

25 stream intracellular reactive oxygen species production.

26 ion and other changes, including system-2 ET production.

27 adaptive mutations during egg-based vaccine production.

28 and for ventral-stream pathways in language production.

29 face methoxy groups and accelerated methanol production.

30 have rarely been recognized for siderophore production.

31 changes in the F(1) motor that catalyzes ATP production.

32 s, but these cells showed impaired IFN-gamma production.

33 hieve up to 125-fold increase over cytosolic production.

34 blet cell hyperplasia and increased TGF-beta production.

35 NK cell subset characterized by low cytokine production.

36 of the projected total cost for large-scale production.

37 red, N and P can be redirected to fertilizer production.

38 and physiological conditions to control the production, activity, and movement of these organelles.

39 so led to a reduction of mature mycolic acid production and accumulation of intermediates derived fro

40 Ocean that can support higher trophic-level production and additional carbon export.

41 ubiquitous aquatic pollutant with extensive production and application.

42 neutrophil and eosinophil recruitment, mucin production and asthma-associated cytokines in the bronch

43 SMCs resulted in increased IP-dependent cAMP production and consecutive facilitation of SMC relaxatio

44 ingly critical to balancing renewable energy production and consumption(1).

45 ovide the required feedstocks for industrial production and daily life.

46 er assume an initial steady-state balance of production and degradation and measure half-life by quan

47 ing structure and provide a platform for the production and diversification of this class of promisin

48 for assessing individual growth, population production and ecosystem functioning, including in the a

49 C survival in hypoxia, proangiogenic factors production and endothelial differentiation.

50 earch frameworks that simultaneously address production and environmental goals are required to ident

51 dural differences between red and white wine production and environmental stress on grape integrity,

52 ponent of such cellular communication is the production and exchange of various types of extracellula

53 as 1-methylcyclopropene (1-MCP) on ethylene production and fruit quality of Cripps Pink and Granny S

54 In conclusion, both HBsAg production and HDV replication are effectively inhibited

55 Hepatic TG production and intestinal TG absorption were unchanged i

56 h community is an important driver for CH(4) production and its highly dynamic accumulation in oxic s

57 riate SOFs applied were able to reduce N(2)O production and maintain greater nitrate-N levels in floo

58 Decreased ATP production and NADH recycling, associated with mitochond

59 on recent work on the regulation of cytokine production and proliferation.

60 This limits force production and promotes muscle relaxation.

61 However, the mechanisms that sustain their production and recruitment to the injured heart are uncl

62 ip3 have increased RNA virus-triggered IFN-I production and reduced susceptibility to virus.

63 Rag-deficient mice both prevented IFN-gamma production and rescued mutant colonization.

64 verns protein folding, secretion, and energy production and serves to maintain protein homeostasis in

65 , AS microbiome was enriched toward caproate production and showed the highest caproate concentration

66 which may in part explain increased ethylene production and signaling in RPW8.1-expressing plants.

67 In this well-selected system, production and stabilization of a radical species were s

68 optotic cells significantly increased GM-CSF production and T(H)2 cell differentiation.

69 and cellular processes associated with venom production and to highlight key distinctions of venom gl

70 The human ovary orchestrates sex hormone production and undergoes monthly structural changes to r

71 contractility, as well as myocardial energy production and utilization.

72 ivation marker CD86 and an increase in IL-10 production and was associated with a higher proliferatio

73 merous ecosystem services (ESs) such as food production and water purification.

74 to demand, continuously adjusting JH(2)O(2) production and, in turn, the rate at which energy is exp

75 en-specific antibody responses and IFN-gamma production) and biodistribution (antigen and adjuvant) w

76 normous energy resources (2% of world energy production), and the high pressures and temperatures mak

77 llergen-induced IL-33 release, ILC2 cytokine production, and airway inflammation.

78 mitochondrial Ca2+ homeostasis, affects ATP production, and attenuates DNA repair.

79 te change in biogeochemical cycling, primary production, and biological diversity by the end of the E

80 Necrosome signaling, cytokine production, and cell death were evaluated by immunoblott

81 ermeability, leukocyte traffic, nitric oxide production, and coagulation, and harbors diverse growth

82 y sea buckthorn cultivars, develop crops and production, and design functional products rich in flavo

83 se tropical race 4 (Foc TR4) reduced the FSA production, and resulted in decreased disease symptoms a

84 Enhanced chemokine and alarmin production, and seeding of the skin with antigen-present

85 inued success of abalone and other shellfish production, and these mitigation efforts should be incor

86 1-independent IL-1 and tumor necrosis factor production, and were prone to cell death.

87 First, NZ's production- and consumption-based emissions were quantif

88 membrane attack complex/C5b9 formations; ROS production; and ultimately cellular death of beta-endorp

89 The primary end point was endogenous insulin production, as assessed according to the area under the

90 slowing ATP-binding, resulting in high-force production at both homotetramer ends.

91 ual life cycle environmental impacts of crop production at county scale across mutiple years are lack

92 ction at low doses of TSH and decreased cAMP production at high doses (>1 mU/ml).

93 ed dose-response curve" with increasing cAMP production at low doses of TSH and decreased cAMP produc

94 glucose, with the reduction in nitric oxide production being the most notable.

95 thways, we noted increased mitochondrial ATP production, but a net decrease in cellular ATP levels.

96 nto areas that are increasingly marginal for production, but highly significant for wildlife, and sug

97 defects in viral RNA processing and protein production, but previously identified substrates of the

98 ically validate new swabs for immediate mass production by 3D printing.

99 ation potential of terrestrial net ecosystem production by 8.3% (NEP, 22.25 Pg CO(2) /year) under war

100 ncing, we found that in GA lesions IFN-gamma production by CD4(+) T cells is upregulated and is assoc

101 Furthermore, IL-36R-mediated IL-22 production by CD4(+) T cells was dependent upon NFkappaB

102 emonstrated that negative regulation of CCL2 production by GPBAR1 agonism was promoter dependent and

103 jects, and bacterial lactate increases IL-10 production by human monocyte-derived macrophages.

104 e role for spermine in facilitating mucilage production by mitigating endoplasmic reticulum (ER) stre

105 Annually variable and synchronous seed production by plant populations, or masting, is a widesp

106 ed Bcl6 and PD-1 expression as well as IL-21 production by T(FH) cells, preventing proper spatial org

107 g-step for the maximum level of testosterone production by the testis but does not control basal test

108 itrogen fertilizer exhibited increased N(2)O production, by 74 times in mineral soil and 2 times in o

109 uction passed up trophic levels) and primary production can account for the observed increase in fish

110 vaccination resulted in a superior cytokine production capacity compared with later morning.

111 ssociated with a pronounced increase of XCL1 production capacity; chemokines dominate the earliest st

112 benthic habitat with increases in zoobenthic production compared to the pelagic habitat which decreas

113 suggest that methyl-compounds driven methane production drives a cryptic methane cycling and fuels AO

114 to study the spatiotemporal dynamics of N(2) production due to denitrification in riparian groundwate

115 thase enzyme to its c-subunit, enhancing ATP production efficiency and synaptic growth.

116 Average feedstock production emissions intensities were similar between so

117 lassify rice according to sub-population and production environment based on differences in physicoch

118 e high pressures and temperatures make NH(3) production facilities very expensive.

119 polymer manufacturing aid at a fluoropolymer production facility in Parkersburg, WV from 1951 to 2013

120 localized to the ER and were involved in PA production for pollen tube growth.

121 y sources become more important, electricity production from biomass would offset less fossil fuel el

122 Light-induced H(2) production from water represents one of the most crucial

123 ession levels to improve recombinant protein production has become an important tool, but is still ra

124 r of vertebrate taxa where endogenous chitin production has been detected and raise questions regardi

125 ss to libraries of unprecedented size, their production has been hampered by the idiosyncratic needs

126 from the aqueous phase after fermentation or production has finished.

127 cal relevance, the lack of methods for their production has hampered access to their utility.

128 ly as a tool for waste valorization and feed production has primarily been investigated at the bencht

129 ial plastics production in the 1940s, global production has rapidly accelerated, doubling approximate

130 of prior antigenic experience; induced CCL1 production identifies highly polyfunctional CD8(+) and C

131 regard to lymphoblast expansion and cytokine production (IFN-gamma, IL-2, and TNF), with the highest

132 inolate intermediates limits phenylpropanoid production in a Mediator Subunit 5 (MED5)-dependent mann

133 icantly inhibits posttransplant alloantibody production in a murine transplant model.

134 tment with low-dose EPO triggered robust RBC production in both models.

135 engineering approaches for high-level Taxol production in cell cultures or microbial hosts.

136 c tool for increasing seed yield and biomass production in crop and forage legumes.

137 rait that determines grain yield and biomass production in crops.

138 provide a mechanistic understanding of N(2)O production in eukaryotic phototrophs and represent an im

139 ve disease, and the role of GBS-specific IgG production in exposed offspring and juvenile mice at age

140 r NLRP3 inflammasome activation and IL-1beta production in macrophages by detoxifying excessive ROS l

141 rane glycerolipid turnover to accumulate TAG production in oil seeds and that NPC6 has a great applic

142 standing is required to engineer modified FA production in oilseeds and suggest that phospholipase A2

143 tional engineering for commercial metabolite production in photoautotrophic, cyanobacterial cells is

144 alogs, termed taxoids, which complicates its production in pure form, highlighting the need for metab

145 SF signaling amplifies inflammatory cytokine production in recruited monocytes by enhancing Toll-like

146 Knockdown of Smad7 alleviated deficient ECM production in SA fibroblasts in response to TGFbeta.

147 o depressive-like behaviors or SAA1 and SAA2 production in Th17-deficient mice after stress.

148 Since the start of commercial plastics production in the 1940s, global production has rapidly a

149 hypothalamus (POA(PAG) neurons) elicited USV production in the absence of social cues.

150 ld prevents excessive interleukin 18 (IL-18) production in the colonic mucosa by deubiquitinating NLR

151 expression, followed by a decrease in PGE(2) production in the lung; accordingly, exogenous administr

152 oxidising bacteria, suggesting that primary production in the sediment was driven by chemolithoautot

153 Species contributing positively to ecosystem production in the warmed treatments were those that had

154 in the bacterium Lactococcus lactis Protein production in these two microbial hosts was enhanced by

155 apparent effect in reducing endogenous renin production in this case.

156 een out of 30 MeONPs induced excess IL-1beta production in THP-1 cells.

157 ctory to in vitro stimulation after IFNalpha production in vivo.

158 n plays an essential role in sustaining crop production in water-limited regions, as irrigation water

159 Biomass production increased in spring due to a warming-induced

160 o regulate CD8(+) T cell effector cytokine R production independent of TCR Ag affinity.

161 This biomass production is likely to be important for local food webs

162 micronutrients and macronutrients and global production is maximized.

163 use metabolic modeling to predict basal ROS production levels (ROStype) for 695 of these strains, fi

164 tain valuable information of human mobility, production linkages, and logistics for regional manageme

165 upon the SOA molecular composition and thus production mechanisms.

166 ile preserving the beneficial effects on RBC production mediated by EPO or Tfr2 deletion.

167 Fermentation as a production method for chemicals is especially attractive

168 ell receptors (TCRs) show increased cytokine production, migration toward tumor cells, and tumor cell

169 d1), and a regulator of diacylglycerol (DAG) production, Nem1.

170 It is also used in the production of 'Balsamic vinegar of Modena' vinegars, wit

171 tation and motility can be co-regulated with production of a beta-lactam antibiotic (carbapenem carbo

172 In the present study, we report the production of a high-grade spinal cord glioma model in p

173 Here we describe the production of a range of mini-spidroins with both termin

174 The fluent production of a signed language requires exquisite coord

175 ainst cancer has been recently linked to the production of acquired immunity effectors such as antibo

176 gulates its activity, thereby increasing the production of amyloid-beta.

177 se properties in one filter will lead to the production of an effective device, comprehensibly mitiga

178 kocyte recruitment to infection foci, and 3) production of anti-inflammatory effectors IL-10 and thio

179 licits neutralizing antibody development and production of antibodies facilitating uptake of immunoge

180 tep in the replication of viruses and in the production of artificial viral cages for bio/nanotechnol

181 Halfway through the trial, production of BCG-Denmark was halted, and the trial cont

182 rines, carbapenems, and monobactams), by the production of beta-lactamases.

183 L, the level sufficient for commercial-scale production of biocontrol products.

184 The feedback loop further enables prolonged production of BisDC, which ensures expression of the 'do

185 hether the heat treatment applied during the production of black onion, a novel derived product made

186 NANPs significantly enhances RIG-I mediated production of both proinflammatory cytokines and interfe

187 To develop commercial processes for the production of bulk chemicals via a metabolic engineering

188 For example, during CO(2) reduction, production of CO often requires balancing a trade-off be

189 cific mRNAs was remodeled leading to reduced production of collagens, loss of structural integrity of

190 Factors influencing production of greenhouse gases nitrous oxide (N(2)O) and

191 ation to control the usage of substrates for production of heat versus ATP.

192 Activation of EMT significantly increases production of hyaluronic acid, which is enabled by the r

193 Production of hydroxy fatty acids (HFAs) in transgenic c

194 However, selectively in BMMC, the production of IL-9 critically depends on autocrine IL-3

195 e of activation, increased death, and higher production of IL27.

196 Elevated local production of inflammatory cytokines and MMPs, together

197 Bioluminescence, or the production of light by living organisms via chemical rea

198 lipoxygenase-mediated pathway stimulates the production of lipoxin A(4) as well as other signaling mo

199 is approach takes us one step closer to mass production of macroscopic monolayers and bulk-like artif

200 utin/UTR had no significant influence on the production of maltooligosaccharides (18-75 mg/mL of dext

201 infrastructure will drive an increase in the production of many metals, creating new mining threats f

202 stems able to achieve the assembly-line like production of molecules.

203 lar assembly transcriptionally regulates the production of more initial building blocks.

204 ght even be unnecessary, contributing to the production of more natural products.

205 uidic technology enabled highly reproducible production of multicomponent eHNPs incorporated with apo

206 ntervention that require enhanced or reduced production of neutrophils.

207 alternative for sustainable and distributed production of NH(3) .

208 tric oxide synthase expression and beta-cell production of nitric oxide.

209 macrophages, resulting in their activation, production of NO, and subsequent destruction of parasite

210 ut is crucial to achieving desirable biomass production of PCG without negatively impacting the envir

211 In this study, production of peptide fractions with different molecular

212 tion with a pathogen typically stimulate the production of potent antibodies specific for the pathoge

213 , leading to high mortality due to sustained production of pro-inflammatory cytokines.

214 However, the NF-kappaB-dependent production of pro-inflammatory mediators is not affected

215 , which might be linked to a decrease in the production of pro-inflammatory mediators, such as TNF-al

216 using upregulation of activation markers and production of proinflammatory cytokines in a similar man

217 Here we report production of rubidium Bose-Einstein condensates (BECs)

218 extensively used by gut microbes, increasing production of short chain fatty acids (mainly acetate an

219 nsferase MtcB, sending one-carbon units into production of short-chain fatty acids.

220 hat TLR7 recognizes RABV and facilitates the production of some interferon-stimulated genes.

221 The production of soy protein-based foods requires multiple-

222 X2, and the N-AS-acetylated COX2 induces the production of specialized pro-resolving mediators (SPMs)

223 ed that the specific DRs are involved in the production of specific sfRNAs in both mammalian and mosq

224 aryngeal articulators, which are key for the production of speech sounds in humans.

225 f PTS, but also paves the way for economical production of sulfated proteins as therapeutic agents in

226 that GM-CSF blockage in monocytes stimulated production of the chemokine CXCL-11, which suppressed T

227 ironment likely is enhanced by plasticity in production of the different types of diaspores.

228 ) is an oral, targeted agent that suppresses production of the oncometabolite 2-hydroxyglutarate via

229 autoantigen-specific B cell lineage leads to production of the pathogenic autoantibodies.

230 '-cyclic diguanylate (c-di-GMP) and requires production of the type IV mannose-sensitive hemagglutini

231 entified, enzymatic reactions leading to the production of these cis-isomers from trans-violaxanthin

232 vitro, Dgkzeta deficiency results in reduced production of TNF-alpha, IL-6, and IL-1beta and in limit

233 CyanoHABs are characterized by the production of toxic metabolites known as cyanotoxins.

234 n (Tat) protein has been shown to induce the production of toxic neuronal amyloid protein and also en

235 bacteria, fostering, among other things, the production of trimethylamine N-oxide, a proinflammatory

236 chestrate MS pathology, in part, through the production of two proinflammatory cytokines: interleukin

237 he fabA and fabB genes, leading to increased production of unsaturated fatty acids.

238 dation catalysts is driven by the demands in production of valuable chemicals, remediation of hydroca

239 tions to vascular function include more than production of vasoactive substances.

240 e-dimensional (3D) hydrogel printing enables production of volumetric architectures containing desire

241 The pfl2 mutant exhibited reduced capsule production only in galactose.

242 ling pathway in fine tuning the granulocytic production, opening venues for clinical intervention tha

243 al immune cells and enterocytes via butyrate production, or contribute to synergism within a consorti

244 uantitatively link reef degradation to stock production parameters is needed.

245 ate also a decreasing water use in livestock production partially due to a shift from red to white me

246 trophic transfer efficiency (the fraction of production passed up trophic levels) and primary product

247 expression increased in CHO cells during the production phase, or in plasma B cells.

248 hese data demonstrate that the source of IL6 production plays a major role in the physiological regul

249 Chronic cough and sputum production poorly correlate with the presence of GCH or

250 We mapped conservation priorities, food production potential and socio-economic variables likely

251 A model of structure-based ATP production predicts profound energy stress in older OHCs

252 perior visible-light photocatalytic hydrogen production rate (~212 umol h(-1) /0.02 g catalyst), 30 t

253 that PQS in the non-template increases mRNA production rate and yield.

254 The production rate of (*)OH was linearly correlated with a(

255 ulated across the stripe to control the mRNA production rate.

256 ent showed a progressive decrease in methane production rates and poor process stability, leading to

257 om amino acids and growth factors trigger PA production required for mTORC1 translocation and activat

258 Western blot monitoring of teichoic acid production revealed differential patterns in response to

259 Methane production reveals an additional bacterial pathway disti

260 ation and significantly reduced Th2 cytokine production, serum IgE levels, and airway hyperreactivity

261 ulin resistance with late failure of insulin production, severe hyperglycemia/diabetes, lipodystrophy

262 pendency on the glycolytic pathway for IL-10 production, shifting from the fatty acid oxidation pathw

263 ood) to assess key benefits and costs on the production side of genetically modified (GM) and organic

264 signals used to regulate metabolism and ATP production, such as calcium and reactive oxygen species,

265 g effect of inoculation method on gametocyte production, suggesting higher gametocyte commitment foll

266 O emission from hypoxic soil in agricultural production systems.

267 The biogas production tests were at two-time sets; 24-h and 21-day

268 ry demands for more environmentally-friendly production, the use of natural antifungal compounds extr

269 hey may also help contribute to coral rubble production through physical erosion.

270 Scaling current cereal production to a growing global population will be a chal

271 mmonly used methods to attribute electricity production to end users.

272 DC enhances proinflammatory innate cytokine production to promote an altered Th2 immune response fol

273 HTS data into LabxDB seq to manage them from production to publication.

274 s also highlight the current challenges with production, trade, and mislabeling data, which increase

275 Discovery, production, trafficking, and consumption of illicit drug

276 As a consequence, production, transfer, and replenishment of biomass throu

277 ral retina to ensure adequate 11-cis-retinal production under natural illuminances that can span ten

278 idenced by increased glucose-derived lactate production upon ROS inhibition.

279 ld with a special focus on scalable chemical production using enzymes.

280 Power production varied considerably among the oxides, ranging

281 MP, and that AtPTPN positively regulated AsA production via endogenous Pi content control.

282 esponses by elevating cytokine and chemokine production via triggering multiple signaling pathways.

283 The formate production was doubled when compared with that observed

284 first decade, the subsequent rise in primary production was driven primarily by increased phytoplankt

285 Cytokine production was measured to assess the induction of train

286 ct cellular analysis, demonstrating that IgE production was not limited to type 2 immune responses ye

287 (2) upregulated ENaC activity, and H(2) O(2) production was reduced in both the renal cortex and medu

288 The efficacy of blocking HBsAg and HDV production were 98.2 [94.5-99.9]% and 99.7 [96.0-99.8]%,

289 he antioxidant values and an important SCFAs production were obtained, revealing the enhanced ability

290 tes bind ferric iron, which suppresses their production when added to the growth medium.

291 les also showed enhanced late-life offspring production when allowed to reproduce, indicating that ea

292 on leads to increased interleukin-18 (IL-18) production, whereas blockade of IL-18 receptor in the br

293 ctron donor will promote N(2) O and ammonium production, which is generally not desirable in engineer

294 Yield losses were the result of lower fruit production, which lowered the number of seeds produced p

295 NK cells were the main source of IFN-gamma production, which was enhanced by IL-15.

296 tes to endosomes for induction of interferon production, while an alternate trafficking route deliver

297 an account for the observed increase in fish production, while changes in predator-prey interactions

298 Compromise scenarios that balance production with conservation could cut biodiversity loss

299 spectroscopy, under conditions of high MeHg production (with Cys addition).

300 Climate change is expected to affect crop production worldwide, particularly in rain-fed agricultu