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1 ring, transportation, storage, training, and disposal.
2 damage, which ultimately lead to failure and disposal.
3 e the major mechanism of non-hepatic ammonia disposal.
4 ted in the same or oppsite directions at our disposal.
5 pose mitochondrial bioenergetics and glucose disposal.
6 neering applications including nuclear waste disposal.
7 misfolded glycoproteins to facilitate their disposal.
8 paired hepatic insulin signaling and glucose disposal.
9 re stimulates energy expenditure and glucose disposal.
10 truncated forms of U1 pre-snRNAs for proper disposal.
11 nd nanomaterial synthesis to utilization and disposal.
12 IP) levels and enhanced nonoxidative glucose disposal.
13 tinylase YOD1 is also required for substrate disposal.
14 s and could rapidly biodegrade in compost on disposal.
15 on, and in terms of an intermediate or final disposal.
16 reflects their different patterns of use and disposal.
17 engineered barriers for concrete-based waste disposal.
18 croRNA strand selection and microRNA* strand disposal.
19 riorates HFD-induced skeletal muscle glucose disposal.
20 esidual biosolids processing, transport, and disposal.
21 cid infusion blunts insulin-mediated glucose disposal.
22 etermine if specific factors drive increased disposal.
23 dments or tanks prior to reuse, treatment or disposal.
24 ocesses for waste separation, treatment, and disposal.
25 sosomal biogenesis and/or lysosomal glycogen disposal.
26 us waste streams associated with electronics disposal.
27 s, composting may be a viable method for SRM disposal.
28 y of O2 with limited chemical tools at their disposal.
29 reased brown adipose tissue-mediated glucose disposal.
30 ite in systems relevant to radioactive waste disposal.
31 nt via manufacturing, product use, and waste disposal.
32 One proposed option is underground CO2 disposal.
33 mental impacts, and wastewater treatment and disposal.
34 c health risks upon inadequate treatment and disposal.
35 scle is a major site of postprandial glucose disposal.
36 predominant site of insulin-mediated glucose disposal.
37 es to identify unconventional O&G wastewater disposal.
38 ammonia and bicarbonate, initiating nitrogen disposal.
39 ngestion, reduces insulin-stimulated glucose disposal.
40 nd whether it has a viable punishment at its disposal.
41 e of pipeline construction, maintenance, and disposal.
42 P. furiosus has two modes of electron disposal.
43 and resulting maintenance of muscle glucose disposal.
44 fe injection supplies and appropriate sharps disposal.
45 ces are followed regarding their storage and disposal.
46 ltration, in order to prepare them for final disposal.
47 uring a product's life cycle and after final disposal, 6:2 FTOH-derived compounds may be released int
48 make better decisions if they have at their disposal a representation of the uncertainty associated
49 nmental and human health implications of CCR disposal and accidental release to the environment in th
51 onsiders that it has empty d-orbitals at its disposal and contains, at the same time, no less than tw
52 this paper, we review the rationale for tOPV disposal and describe the global guidelines provided to
53 glycemia impaired insulin-stimulated glucose disposal and glucose clearance in skeletal muscle, where
54 dose of LPS produced an increase in glucose disposal and glucose-stimulated insulin secretion (GSIS)
56 e environmental issues of sewage sludge (SS) disposal and greenhouse gas (GHG) emission in China, we
59 y, similar levels of insulin-induced glucose disposal and insulin signaling in metabolically active t
62 ic codigestion (AcoD) can address food waste disposal and manure management issues while delivering c
69 They also show that incorporating the actual disposal and site conditions and resultant novel materia
71 2) enhanced insulin-mediated muscle glucose disposal and suppression of hepatic glucose production.
72 fall in insulin secretion and tissue glucose disposal and the rise in EGP after one dose, thereby low
74 ources, including agriculture and wastewater disposal, and by hydrogeologic factors affecting NO3(-)
75 idences were educated about proper pet waste disposal, and direct inputs to the lagoon and surf zone,
76 peutics due to metabolic excretion, improper disposal, and industrial waste has been well-recognized.
77 lacks hepatic glycogen, has impaired glucose disposal, and is pre-disposed to entering the fasted sta
78 he major site for insulin-stimulated glucose disposal, and muscle insulin resistance confers many neg
79 o simplify storage, transportation and waste disposal, and offer the possibility of improved vaccine
80 ore measured in 30 women the rate of glucose disposal, and plasma 3-HIB, FGF21, adiponectin, and NEFA
82 between hepatic fatty acid availability and disposal, and resulted in increased hepatic de novo lipo
83 Skeletal muscle is a major site of glucose disposal, and the role of aging-associated inflammation
84 most notably during wastewater transport and disposal, and via poor zonal isolation of gases and flui
85 he three PAHs that account for tailings pond disposal are much closer to estimated global averages th
87 Two sites were sampled: a surface soil and a disposal area for DU-contaminated wood, and the U specia
90 lococcus aureus PRF or sulfide oxidation and disposal as observed with the homologous mammalian prote
92 (129)I derived from a former radionuclide disposal basin located on the Savannah River Site (SRS)
93 in sediments from a former radioactive waste disposal basin located on the Savannah River Site, South
95 reported low rates of anticipated or actual disposal, but no study reported US Food and Drug Adminis
98 n ingestion impairs insulin-mediated glucose disposal by leucine-mediated mTOR signaling, which can i
99 ressure-limited reservoirs will have reduced disposal capacity, though area-limited reservoirs may ha
100 e of carbon steel under simulated geological disposal conditions by using a geochemical approach.
101 nding to the years of maximum O&G wastewater disposal contained higher concentrations of salts, alkal
103 tment and recycling of the bleed stream, its disposal decreases and less caustics are required to mai
104 NSAT diet reduced whole-body and leg glucose disposal during a hyperinsulinemic-euglycemic clamp, whi
106 f blood glucose and perfectly normal glucose disposal during an IVGTT with no differences when compar
107 g FHL became an alternate route for electron disposal during H2 inhibition with a concomitant increas
108 ure of diabetes and normalization of glucose disposal during intravenous glucose tolerance tests (IVG
110 e data with respect to three hypotheses (CO2 disposal, facilitation of Na(+)-loading, and recovery fr
111 vidence demonstrating that activities at the disposal facility are impacting a nearby stream and alte
116 he incretin effect, gastrointestinal glucose disposal (GIGD), plasma GIP, GLP-1, and glucagon secreti
117 e body (P = 0.05) and leg (P < 0.01) glucose disposal, greater abdominal adiposity (P < 0.05) and dif
118 havior change communication to promote stool disposal, handwashing with soap, water treatment, protec
122 evidence is consistent with deliberate body disposal in a single location, by a hominin species othe
126 the long-term fate of uranium in geological disposal in both engineered barrier systems and the alka
128 riment on bond dissociation energies, energy disposal in fragments, and the contributions of cooperat
131 f this pathway improved postprandial glucose disposal in mice, whereas its muscle-specific ablation i
132 facilities far exceed regulatory limits for disposal in municipal sanitary landfills and require car
134 emical properties, production costs, use and disposal in order to show the potential of cellulose nan
136 essing mouse or human CTRP6 impaired glucose disposal in peripheral tissues in response to glucose an
138 ucose is the predominant mediator of its own disposal in rodents having only basal and nonglucose-reg
141 infant formulas enriched with prebiotics are disposal in the market, however there are scarce data ab
146 ycle of medical products, from production to disposal, including but not limited to environmental rel
149 th diabetes, approaches that enhance glucose disposal independent of insulin signaling are attractive
150 keletal muscle, and liver to enhance glucose disposal, independent of proximal insulin signaling.
151 arch is needed before recommending anaerobic disposal intended to promote arsenic volatilization.
153 of glucose that reaches the circulation for disposal is a function of the systemic rate of appearanc
155 rom hydraulic fracturing, for reuse or final disposal is challenged by both high salinity and the pre
157 ne of the most common methods for wastewater disposal is underground injection; we are assessing pote
160 he major tissue for insulin-mediated glucose disposal, little is known about AKT1, AKT2 or AS160 subc
161 ainly associated with greater circulating TG disposal, lower systemic lipolysis, and better fatty aci
162 ht coupling of protein folding pathways with disposal mechanisms promotes the efficacy of protein pro
164 ingestion decreased insulin-mediated glucose disposal (median 38.8 [quartiles 30.8, 61.8] vs. 51.9 [4
165 y explored an alternate pathway for platelet disposal mediated by endothelial cells (ECs) through pho
168 rhGH increased FFM and nonoxidative leucine disposal (NOLD; an index of protein synthesis) (P < 0.02
171 eleases of ENMs from manufacturing, use, and disposal of a product explicitly taking stock and flow d
172 oping programmatic guidance for the ultimate disposal of all OPV after the eradication of polio.
176 unctions, phagocytosis, mediates the natural disposal of billions of cells, but its mechanisms and co
177 Alimentary glucose absorption and intestinal disposal of blood glucose have not been directly compare
179 ypertension.SIGNIFICANCE STATEMENT Effective disposal of brain cellular waste products via CSF has be
180 anism regulating the function, transport and disposal of calcium and phosphorus in the human body.
181 rates provides a mechanism for the selective disposal of cell-cycle regulators that have fulfilled th
182 kaline conditions relevant to the geological disposal of cementitious intermediate level radioactive
183 emonstrates for the first time the permanent disposal of CO2 as environmentally benign carbonate mine
190 or the success of female mosquitoes in their disposal of excess nitrogen, we investigated the role of
192 de positive externalities; for example, safe disposal of feces by one household prevents disease tran
194 New regulations and targets limiting the disposal of food waste have been recently enacted in num
197 improved metabolic flexibility (ie, greater disposal of glucose and AAs and more complete beta-oxida
199 on the environment, facilities for permanent disposal of hazardous waste adopt multibarrier design sc
201 exemplified, we started from the integrated disposal of hot steel slags, a man-made iron resource vi
202 gests that these pathways play a role in the disposal of lipids from ingested OS, as well as providin
203 to an intracytoplasmic microcompartment for disposal of methylglyoxal, a toxic byproduct of glycolys
209 he processing of amino acids for energy, and disposal of nitrogenous waste from protein degradation i
210 roblematic fission product for the long-term disposal of nuclear waste due to its long half-life, hig
211 We evaluated the impact of surface water disposal of O&G wastewater from CWT plants upstream of t
214 l of environments relevant to the geological disposal of radioactive waste and radionuclide contamina
216 of regulators involved in ubiquitin-mediated disposal of RAGE might serve as unique molecular inputs
218 d degradation (ERAD) pathway facilitates the disposal of terminally misfolded proteins in the early s
219 ediatric ACO, but other interventions at the disposal of the ACO may have been even more effective.
220 nserved process whereby males may induce the disposal of the opposite sex to save resources for the n
222 ase into the environment through the use and disposal of these products has caused serious concerns.
226 ilitate improved cell function by autophagic disposal of toxic byproducts of cell death and regenerat
227 ery specifically improves autophagy-mediated disposal of toxic protein aggregates that form within th
229 ly chain management, improved mechanisms for disposal of vaccination-related waste materials, and a c
230 s to the existence of a cell pathway for the disposal of vesicles ending up fortuitously or purposefu
231 Intentional or accidental release (direct disposal) of high loads of unused pharmaceuticals into w
232 lowed by avoidance of alternative food waste disposal options and reduced impacts associated with sto
234 y out of use or postuse storage destined for disposal or collection, which encompasses a variety of o
236 assess future water sourcing and wastewater disposal or reuse, and to inform policy discussions.
237 otherapy that started therapies after pollen disposal, or 169 non-treatment in the first follow-up ye
240 eucine, decreased insulin-stimulated glucose disposal (P < 0.05) and prevented both the HECP-mediated
241 at using feedstock diverted from high impact disposal pathways, control of digester emissions, and ma
242 ntify the flows between the use, storage and disposal phase with dynamic material flow analysis (MFA)
245 sting energy expenditure, whole-body glucose disposal, plasma glucose oxidation, and insulin sensitiv
247 ese processed wastes are part of the current disposal practice for GTW and could be excluded with con
251 porative emissions (e.g., from tailings pond disposal) provides a more realistic representation of PA
252 minuria reduction and with increased glucose disposal rate (measured by hyperinsulinemic-euglycemic c
256 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
258 ; 95% CI: -0.07, 0.34; P = 0.21), or glucose disposal rates under euglycemic hyperinsulinemic clamp c
260 Jurisdictions seeking to enact food waste disposal regulations should consider regional factors an
261 e, brine production combined with wastewater disposal represent the most likely cause of recent seism
262 ovides an insight into the uptake, preferred disposal route, speciation changes and loss mechanism in
264 odegradation are not recommended as feasible disposal routes for nonbiodegradable plastics containing
265 osition of synthetic wastewater was based on disposal sites 216-U-8 and 216-U-12 Cribs at the Hanford
266 ruction of multibarrier concrete based waste disposal sites and management of alkaline mine drainage
267 lected in areas near and away from known CCR disposal sites, and analyzed for Mo and inorganic geoche
268 ost countries for many decades with landfill disposal still the dominant solid waste management metho
269 had no effect on insulin-stimulated glucose disposal, suppression of endogenous glucose production,
270 fied ascarosides, thus identifying the waste disposal system of the cell as a hotspot for ascaroside
271 l practices (e.g., manure storage) and waste disposal systems (e.g., landfills) which characterize th
272 versal metabolite damage product and that OP disposal systems are common in all domains of life.
274 biodiesel is compared to that of current GTW disposal, the soybean-biodiesel process, and low-sulfur
275 ity of insulin-stimulated whole-body glucose disposal; thus, dysregulation of skeletal muscle metabol
276 y indices (25% TPC and 10% TGDP), the frying disposal time of 15.2h (TPC) vs. 15.8h (e-nose) and 15.5
279 single pathway with multiple enzymes at its disposal to repair DSBs, resulting in a diversity of rep
281 The dependence of glutamine-bound ammonia disposal to urea on the rate of glutamine synthesis sugg
282 dic saturation and overflowing of the former disposal trenches, Pu and Am have been transferred from
283 loads, largely depending on the integrity of disposal units to contain PFCAs upon hydrolytic generati
284 ement in appropriate bags or containers, and disposal using a recommended approach (ie, autoclaving,
285 elative to supplies and FP water relative to disposal using well by well analysis in the Bakken Play.
286 water volume in terms of source, reuse, and disposal, using the Barnett Shale in Texas as a case stu
289 and the rate of glucose absorption (RaO) and disposal was assessed using stable isotope tracers.
292 gh-dose insulin infusion, whole-body glucose disposal was low and remained unchanged after RDN, indic
293 sal and high-glucose conditions, and glucose disposal was shifted from skeletal muscle to adipose tis
294 ods of manipulating platelet function at our disposal, we highlight avenues for future therapeutic in
295 to show that fluid migration from high-rate disposal wells in Oklahoma is potentially responsible fo
298 oblems with IPV storage, transport, or waste disposal were detected, but shortages were reported in 2
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