ライフサイエンスコーパス: disposal

1 P. furiosus has two modes of electron disposal.

2 paired hepatic insulin signaling and glucose disposal.

3 reflects their different patterns of use and disposal.

4 expensive, both in terms of reagent cost and disposal.

5 scle is a major site of postprandial glucose disposal.

6 predominant site of insulin-mediated glucose disposal.

7 es to identify unconventional O&G wastewater disposal.

8 ammonia and bicarbonate, initiating nitrogen disposal.

9 ngestion, reduces insulin-stimulated glucose disposal.

10 nd whether it has a viable punishment at its disposal.

11 e of pipeline construction, maintenance, and disposal.

12 and resulting maintenance of muscle glucose disposal.

13 fe injection supplies and appropriate sharps disposal.

14 ces are followed regarding their storage and disposal.

15 ltration, in order to prepare them for final disposal.

16 ring, transportation, storage, training, and disposal.

17 damage, which ultimately lead to failure and disposal.

18 e the major mechanism of non-hepatic ammonia disposal.

19 ted in the same or oppsite directions at our disposal.

20 pose mitochondrial bioenergetics and glucose disposal.

21 es inversely with insulin-stimulated glucose disposal.

22 neering applications including nuclear waste disposal.

23 misfolded glycoproteins to facilitate their disposal.

24 ch are then incinerated or stabilized before disposal.

25 re stimulates energy expenditure and glucose disposal.

26 truncated forms of U1 pre-snRNAs for proper disposal.

27 nd nanomaterial synthesis to utilization and disposal.

28 IP) levels and enhanced nonoxidative glucose disposal.

29 force awareness on the proper public use and disposal.

30 tinylase YOD1 is also required for substrate disposal.

31 s and could rapidly biodegrade in compost on disposal.

32 on, and in terms of an intermediate or final disposal.

33 r waste and to facilitate its containment or disposal.

34 zed as the terminal center of cellular waste disposal.

35 ted in France for possible radioactive waste disposal.

36 o an important physiological site of glucose disposal.

37 ting the technical barrier for nuclear waste disposal.

38 nd blocked the impact of RNF4 on mutant CFTR disposal.

39 providing education on safe use, storage and disposal.

40 ted by secondary consumers and diverted from disposal.

41 effluent while reducing brine production and disposal.

42 nmental and human health implications of CCR disposal and accidental release to the environment in th

43 There is also social concern about usage, disposal and accumulation of plastic materials.

44 TG disposal and acylcarnitine production during lipid overl

45 onsiders that it has empty d-orbitals at its disposal and contains, at the same time, no less than tw

46 environments pertinent to radioactive waste disposal and contaminated land scenarios.

47 iving radionuclide in both radioactive waste disposal and contaminated land scenarios.

48 this paper, we review the rationale for tOPV disposal and describe the global guidelines provided to

49 glycemia impaired insulin-stimulated glucose disposal and glucose clearance in skeletal muscle, where

50 The hypoxic effects on glucose disposal and glycolysis are well established, but less i

51 e environmental issues of sewage sludge (SS) disposal and greenhouse gas (GHG) emission in China, we

52 y, similar levels of insulin-induced glucose disposal and insulin signaling in metabolically active t

53 BP4 levels correlated inversely with glucose disposal and insulin-mediated suppression of lipolysis,

54 ic codigestion (AcoD) can address food waste disposal and manure management issues while delivering c

55 y insulin resistance by facilitating glucose disposal and mitochondrial function.

56 ass, and dampened insulin-stimulated glucose disposal and oxidation in both rodents and humans.

57 lpha-HCH in the areas downstream of a former disposal and production site in Bitterfeld-Wolfen.

58 ome from a static organelle dedicated to the disposal and recycling of cellular waste to a highly dyn

59 chondria and transfer them to astrocytes for disposal and recycling.

60 d space implies a consistent composition for disposal and reuse planning.

61 tabolome inform about nutrient uptake, waste disposal and signalling activities.

62 They also show that incorporating the actual disposal and site conditions and resultant novel materia

63 RYGB increases intestinal glucose disposal and VSG delays glucose absorption; both contrib

64 ources, including agriculture and wastewater disposal, and by hydrogeologic factors affecting NO3(-)

65 lacks hepatic glycogen, has impaired glucose disposal, and is pre-disposed to entering the fasted sta

66 he major site for insulin-stimulated glucose disposal, and muscle insulin resistance confers many neg

67 o simplify storage, transportation and waste disposal, and offer the possibility of improved vaccine

68 ore measured in 30 women the rate of glucose disposal, and plasma 3-HIB, FGF21, adiponectin, and NEFA

69 ments through patient use, improper medicine disposal, and production.

70 between hepatic fatty acid availability and disposal, and resulted in increased hepatic de novo lipo

71 Skeletal muscle is a major site of glucose disposal, and the role of aging-associated inflammation

72 s associated with their production, use, and disposal; and a high likelihood for human exposure to PF

73 disposed of in purpose-built bauxite residue disposal areas (BRDAs).

74 lococcus aureus PRF or sulfide oxidation and disposal as observed with the homologous mammalian prote

75 ial in laboratory day-to-day business, waste disposal, as well as regulatory confinements.

76 rmore, models of radionuclide transport from disposal boreholes must take into account processes that

77 reported low rates of anticipated or actual disposal, but no study reported US Food and Drug Adminis

78 ipid infusion reduced fed whole-body glucose disposal by 20%.

79 n ingestion impairs insulin-mediated glucose disposal by leucine-mediated mTOR signaling, which can i

80 onstrated significant dose-dependent glucose disposal capacity and insulin secretion in response to g

81 Oilfield wastewater disposal causes fluid pressure transients that induce ea

82 nding to the years of maximum O&G wastewater disposal contained higher concentrations of salts, alkal

83 s the extraction, processing, use, and waste disposal continuum.

84 duction of wet sludge volume) and consequent disposal cost.

85 tment and recycling of the bleed stream, its disposal decreases and less caustics are required to mai

86 NSAT diet reduced whole-body and leg glucose disposal during a hyperinsulinemic-euglycemic clamp, whi

87 Glucose disposal during an IVGTT depends on a complex interactio

88 f blood glucose and perfectly normal glucose disposal during an IVGTT with no differences when compar

89 g FHL became an alternate route for electron disposal during H2 inhibition with a concomitant increas

90 ure of diabetes and normalization of glucose disposal during intravenous glucose tolerance tests (IVG

91 e thymocyte-derived LXRalphabeta limits cell disposal during negative selection and confers heightene

92 EGP) increased by 30% and endogenous glucose disposal (E-Rd) decreased by 40%.

93 Coal ash disposal exposes communities to heavy metals and particu

94 ng an appropriate type of face mask, reusing disposal face mask, and disposing of used face masks sho

95 e data with respect to three hypotheses (CO2 disposal, facilitation of Na(+)-loading, and recovery fr

96 vidence demonstrating that activities at the disposal facility are impacting a nearby stream and alte

97 ive, interdisciplinary study at an injection disposal facility in West Virginia.

98 (87)Sr/(86)Sr in streamwater adjacent to the disposal facility.

99 Increasing water use and disposal for oil production have important implications

100 ed with increased insulin-stimulated glucose disposal, from 30.5+/-15.9 to 61.6+/-13.0 mumol per kilo

101 ment emphasizing zero-liquid-discharge brine disposal has not been studied.

102 the primary site of insulin-mediated glucose disposal; however, in humans the range of improvement ca

103 ogenesis genes that strongly support the CO2 disposal hypothesis.

104 f the experimental techniques we have at our disposal, I propose a broad classification of techniques

105 ely to continue leaching from textiles after disposal in a landfill.

106 hat unintended contamination may result from disposal in anaerobic environments.

107 Heat-generating nuclear waste disposal in bedded salt during the first two years after

108 (SNF) around the world is destined for final disposal in deep-mined geological repositories.

109 on energies of dimers and trimers and energy disposal in fragments are obtained.

110 riment on bond dissociation energies, energy disposal in fragments, and the contributions of cooperat

111 ycling, which aggravates the burden of waste disposal in landfill.

112 -I are the driving forces of HDL-cholesterol disposal in liver.

113 f this pathway improved postprandial glucose disposal in mice, whereas its muscle-specific ablation i

114 essing mouse or human CTRP6 impaired glucose disposal in peripheral tissues in response to glucose an

115 analogues still stimulate efficient glucose disposal in rats, pigs and dogs during constant intraven

116 ity, tunneling, resonance and product energy disposal in reaction dynamics are discussed.

117 ucose is the predominant mediator of its own disposal in rodents having only basal and nonglucose-reg

118 ing technology to excavate boreholes for SNF disposal in sedimentary rock.

119 allow aquifers in a region of widespread CCR disposal in southeastern Wisconsin.

120 eakfast enhances the liver's role in glucose disposal in subsequent same-day meals.

121 infant formulas enriched with prebiotics are disposal in the market, however there are scarce data ab

122 sts that the uplift was caused by wastewater disposal in the well.

123 However, its handling and disposal in underdeveloped countries is often unsafe and

124 However, insulin-stimulated glucose disposal in vivo was significantly diminished in UniNx m

125 and industries is leading to its subsequent disposal in waterways.

126 vings of 21% were realized in terms of waste disposal, in addition to creating a value-added product

127 ycle of medical products, from production to disposal, including but not limited to environmental rel

128 a support the notion that intestinal glucose disposal increases after RYGB surgery.

129 th diabetes, approaches that enhance glucose disposal independent of insulin signaling are attractive

130 keletal muscle, and liver to enhance glucose disposal, independent of proximal insulin signaling.

131 arch is needed before recommending anaerobic disposal intended to promote arsenic volatilization.

132 Cumulative FP water has been managed by disposal into an increasing number (277 to 479) of salt

133 n for this wastewater rather than its direct disposal into landfills.

134 of glucose that reaches the circulation for disposal is a function of the systemic rate of appearanc

135 n, the main blood protein, even though blood disposal is a severe problem for meat processors.

136 tation, hydraulic fracturing, and wastewater disposal is evolving into a global issue because of the

137 uine products during manufacturing, use, and disposal is far more relevant.

138 Current research on radionuclide disposal is mostly conducted in granite, clay, saltstone

139 ne of the most common methods for wastewater disposal is underground injection; we are assessing pote

140 xetine is prescribed as one capsule per day, disposal is unlikely to be at the patient level.

141 ized, resulting in both resource wastage and disposal issues.

142 ts and was associated with lower leg glucose disposal (LGD) (63%) in obese men.

143 ple aspects of metabolism, including glucose disposal, lipolysis, oxidative metabolism, and energy ex

144 nclude drugs targeting energy intake, energy disposal, lipotoxic liver injury, and the resulting infl

145 he major tissue for insulin-mediated glucose disposal, little is known about AKT1, AKT2 or AS160 subc

146 ainly associated with greater circulating TG disposal, lower systemic lipolysis, and better fatty aci

147 on the median of insulin stimulated glucose disposal (M) measured during the hyperinsulinemic-euglyc

148 ight overwhelm the capacity of intracellular disposal mechanisms.

149 ingestion decreased insulin-mediated glucose disposal (median 38.8 [quartiles 30.8, 61.8] vs. 51.9 [4

150 y explored an alternate pathway for platelet disposal mediated by endothelial cells (ECs) through pho

151 Lack of a safe and convenient disposal method for expired and unused medications may l

152 US Food and Drug Administration-recommended disposal methods in more than 9% of patients.

153 more than 70% of the emissions during waste disposal occurred in the less industrialized regions.

154 Non-hepatic ammonia disposal occurs in the mitochondria via glutamate synthe

155 Here, direct disposal of a pharmaceutical drug via the sewer network

156 eleases of ENMs from manufacturing, use, and disposal of a product explicitly taking stock and flow d

157 rly important for the safe use, storage, and disposal of actinide oxides in the nuclear fuel cycle, s

158 oping programmatic guidance for the ultimate disposal of all OPV after the eradication of polio.

159 cytes are the primary site for physiological disposal of ammonia, a cytotoxic cellular metabolite gen

160 The disposal of apoptotic bodies by professional phagocytes

161 Our ability to improve the disposal of apoptotic bodies by professional phagocytes

162 xetine, this increased load accounts for the disposal of approximately 915 capsules.

163 (RAB24), a small GTPase that facilitates the disposal of autophagic compartments.

164 unctions, phagocytosis, mediates the natural disposal of billions of cells, but its mechanisms and co

165 Alimentary glucose absorption and intestinal disposal of blood glucose have not been directly compare

166 alimentary glucose absorption and intestinal disposal of blood glucose.

167 ypertension.SIGNIFICANCE STATEMENT Effective disposal of brain cellular waste products via CSF has be

168 anism regulating the function, transport and disposal of calcium and phosphorus in the human body.

169 Unsafe disposal of children's feces may contribute to this cont

170 emonstrates for the first time the permanent disposal of CO2 as environmentally benign carbonate mine

171 is responsible for active transport-mediated disposal of CO2.

172 nstitutive excretion mechanism ensures rapid disposal of compromised proteins.

173 arkinsonism (AR-JP) and work together in the disposal of damaged mitochondria by mitophagy.

174 The disposal of elemental mercury (Hg(0)) wastes in mining a

175 or the success of female mosquitoes in their disposal of excess nitrogen, we investigated the role of

176 n is partially metabolized to facilitate the disposal of excess nitrogen.

177 Resulting, unsafe disposal of fecal waste from open-defecation to nearby d

178 de positive externalities; for example, safe disposal of feces by one household prevents disease tran

179 here are further concerns regarding the safe disposal of fluoropolymers and their associated products

180 New regulations and targets limiting the disposal of food waste have been recently enacted in num

181 Disposal of FP water into deeper geologic units should b

182 (locus of the F508del mutation) to mimic the disposal of full-length (FL) CFTR.

183 Using stable isotopes, we show that disposal of glutamine-bound ammonia to urea (through mit

184 multibarrier concept for the deep geological disposal of high-level radioactive waste (HLW), bentonit

185 exemplified, we started from the integrated disposal of hot steel slags, a man-made iron resource vi

186 nicipal solid wastes and its accumulation or disposal of in landfills is problematic, causing environ

187 ges, can complement the tools already at the disposal of international agencies to safeguard nuclear

188 gests that these pathways play a role in the disposal of lipids from ingested OS, as well as providin

189 Activated carbon can offer safe disposal of medications due to its highly porous structu

190 Disposal of membrane proteins in the late secretory path

191 to an intracytoplasmic microcompartment for disposal of methylglyoxal, a toxic byproduct of glycolys

192 over, is environmentally oriented due to the disposal of micro-quantities of solvent required.

193 The currently recognized mechanism for disposal of mitochondria is autophagy, where damaged org

194 The disposal of NETs is, therefore, important to prevent ina

195 Effective disposal of nitrogen waste in blood-fed Aedes aegypti mo

196 he processing of amino acids for energy, and disposal of nitrogenous waste from protein degradation i

197 roblematic fission product for the long-term disposal of nuclear waste due to its long half-life, hig

198 In the frame of studies on the safe disposal of nuclear waste, there is a great interest for

199 We evaluated the impact of surface water disposal of O&G wastewater from CWT plants upstream of t

200 vant tumor-suppressor molecules and impaired disposal of oncogenic proteins have been linked to tumor

201 -mediated ER-phagy, highlighting RTN3 in the disposal of pathogenic prohormone aggregates.

202 s to neighboring glia for lipid exchange and disposal of potentially lipotoxic metabolites, producing

203 Due to the high production volumes and disposal of products made from BPA, polycarbonate plasti

204 rsenal of defence systems known to be at the disposal of prokaryotes against their viruses.

205 ant in terms of release from deep geological disposal of radioactive waste and incorporation into the

206 of regulators involved in ubiquitin-mediated disposal of RAGE might serve as unique molecular inputs

207 the long-term safety case for deep borehole disposal of SNF.

208 lly O2 production via photosynthesis and the disposal of superoxide radicals.

209 d degradation (ERAD) pathway facilitates the disposal of terminally misfolded proteins in the early s

210 ediatric ACO, but other interventions at the disposal of the ACO may have been even more effective.

211 etachable acoustic sorting system allows the disposal of the microfluidic channel after a single use

212 genomic resources of sorghum that are at the disposal of the research community; (ii) the suite of so

213 The disposal of the water and solid wastes produced from sep

214 ase into the environment through the use and disposal of these products has caused serious concerns.

215 This experience with disposal of tOPV highlights the adaptability of national

216 Steps for appropriate disposal of tOPV included removal of all tOPV vials from

217 ed to countries for the safe and appropriate disposal of tOPV.

218 ery specifically improves autophagy-mediated disposal of toxic protein aggregates that form within th

219 ement policies and strategies with regard to disposal of unused vaccines.

220 ly chain management, improved mechanisms for disposal of vaccination-related waste materials, and a c

221 s to the existence of a cell pathway for the disposal of vesicles ending up fortuitously or purposefu

222 Intentional or accidental release (direct disposal) of high loads of unused pharmaceuticals into w

223 Several disposal options involve anaerobic environments, includi

224 nwanted SCT leads to the need for its costly disposal or burning at the boiler plant.

225 y out of use or postuse storage destined for disposal or collection, which encompasses a variety of o

226 e modes of ecological damage from mine waste disposal or other disturbance events.

227 assess future water sourcing and wastewater disposal or reuse, and to inform policy discussions.

228 otherapy that started therapies after pollen disposal, or 169 non-treatment in the first follow-up ye

229 otherapy that started therapies after pollen disposal, or 333 non-treatment.

230 otherapy that started therapies after pollen disposal, or 337 non-treatment.

231 Among the many therapeutic strategies at our disposal, our immune system remains the gold-standard in

232 importance of nutrient uptake into and waste disposal out of the minimal bacterial cell in a nutrient

233 o the outdoor environment from use and waste disposal outlast those to the indoor environment from th

234 n the bioenergy sector with annual byproduct disposal over 100 years could provide a cumulative GHG o

235 eucine, decreased insulin-stimulated glucose disposal (P < 0.05) and prevented both the HECP-mediated

236 ate regulations to restrict cheaper forms of disposal, particularly landfill.

237 ntify the flows between the use, storage and disposal phase with dynamic material flow analysis (MFA)

238 e late 1990s, and frequently end up in waste disposal plants.

239 ions, primarily infiltrating through unlined disposal ponds, based on Cl, Li, noble-gas, and other da

240 reverse osmosis or RO, concentrate or reject disposal poses a major challenge.

241 ese processed wastes are part of the current disposal practice for GTW and could be excluded with con

242 d waste, modification of current storage and disposal practices, and the development of more durable

243 to domestic wells as a result of legacy pit disposal practices.

244 astics production and the accompanying waste disposal problems represent a largely untapped opportuni

245 Autophagy, a cellular waste disposal process, has well-established tumor-suppressive

246 During nuclear waste disposal process, radioactive iodine as a fission produc

247 minuria reduction and with increased glucose disposal rate (measured by hyperinsulinemic-euglycemic c

248 The aggregate disposal rate for food waste was 0.615 pounds (0.279 kg)

249 8; 95% CI: -0.02, 0.39; P = 0.08) or glucose disposal rates (SMD: 0.10; 95% CI: -0.21, 0.40; P = 0.54

250 Our analysis of disposal rates and landfill capacities reveals that more

251 ; 95% CI: -0.07, 0.34; P = 0.21), or glucose disposal rates under euglycemic hyperinsulinemic clamp c

252 Both glucose disposal (Rd) and endogenous glucose production (EGP) in

253 more sensitive than for stimulating glucose disposal (Rd).

254 Jurisdictions seeking to enact food waste disposal regulations should consider regional factors an

255 flexibility, increased nonoxidative glucose disposal related to lower starting glycogen content, and

256 f the consumer plastics and their after-life disposal resulting in an increasing demand for sustainab

257 ovides an insight into the uptake, preferred disposal route, speciation changes and loss mechanism in

258 odegradation are not recommended as feasible disposal routes for nonbiodegradable plastics containing

259 ment, they also produce sludge that requires disposal, similar to reservoir sediments.

260 igh-dose insulin infusion stimulated glucose disposal similarly in control subjects and GCK-MODY but

261 omobacter xylosoxidans from the shrimp waste disposal site using chitin minimal medium.

262 lected in areas near and away from known CCR disposal sites, and analyzed for Mo and inorganic geoche

263 rts and expand the availability of potential disposal sites.

264 ost countries for many decades with landfill disposal still the dominant solid waste management metho

265 had no effect on insulin-stimulated glucose disposal, suppression of endogenous glucose production,

266 efficiency of an activated carbon-based drug disposal system for deactivating three model sedative pr

267 fied ascarosides, thus identifying the waste disposal system of the cell as a hotspot for ascaroside

268 sted, suggesting activated carbon-based drug disposal system provides a convenient, secure, and effec

269 l practices (e.g., manure storage) and waste disposal systems (e.g., landfills) which characterize th

270 versal metabolite damage product and that OP disposal systems are common in all domains of life.

271 waste collection, and recycling; expand safe disposal systems; and accelerate innovation in the plast

272 on (EGP) and a suppression of tissue glucose disposal (TGD).

273 biodiesel is compared to that of current GTW disposal, the soybean-biodiesel process, and low-sulfur

274 ity of insulin-stimulated whole-body glucose disposal; thus, dysregulation of skeletal muscle metabol

275 y indices (25% TPC and 10% TGDP), the frying disposal time of 15.2h (TPC) vs. 15.8h (e-nose) and 15.5

276 MOS) sensors, guided determination of frying disposal time of sunflower oil is reported.

277 In some cases, disposal to a sewage treatment plant may be favored, but

278 single pathway with multiple enzymes at its disposal to repair DSBs, resulting in a diversity of rep

279 g question regarding what factors are at our disposal to switch from a nonclassical to classical mech

280 The dependence of glutamine-bound ammonia disposal to urea on the rate of glutamine synthesis sugg

281 ement in appropriate bags or containers, and disposal using a recommended approach (ie, autoclaving,

282 elative to supplies and FP water relative to disposal using well by well analysis in the Bakken Play.

283 factors, highlighting the need to complement disposal via biomass energy with other strategies to mit

284 agy, where damaged organelles are marked for disposal via ubiquitylation by Parkin.

285 Its effective disposal via various CSF routes has been demonstrated in

286 and the rate of glucose absorption (RaO) and disposal was assessed using stable isotope tracers.

287 During glucose tolerance tests, glucose disposal was enhanced in SIRT2 knock-out mice, compared

288 It is postulated that direct disposal was from a facility which handles larger quanti

289 gh-dose insulin infusion, whole-body glucose disposal was low and remained unchanged after RDN, indic

290 sal and high-glucose conditions, and glucose disposal was shifted from skeletal muscle to adipose tis

291 Whole-body glucose disposal was ~18% lower on the exercise day as compared

292 ods of manipulating platelet function at our disposal, we highlight avenues for future therapeutic in

293 rface uplift that occurred near a wastewater disposal well from 2007 to 2011.

294 increasing number (277 to 479) of salt water disposal wells.

295 of oil and gas production, is injected into disposal wells.

296 oblems with IPV storage, transport, or waste disposal were detected, but shortages were reported in 2

297 ty and peripheral insulin-stimulated glucose disposal were reduced.

298 emical life-cycle (i.e., manufacturing, use, disposal) were included.

299 under the weathering conditions of geologic disposal, which extend to periods of hundreds of thousan

300 ated glucose transport, and improved glucose disposal without increasing insulin levels.