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1 s, as well as in microbes that feed on plant debris.
2  engulfment of unicellular organisms or cell debris.
3 everse delayed clearance of damaged neuronal debris.
4 sal potential of marine organisms on plastic debris.
5 cation, underlined the predominance of plant debris.
6 etween the co-precipitated proteins and cell debris.
7 en turtles were more attracted by artificial debris.
8 ated with petroleum hydrocarbons or plastics debris.
9 t up to 52% of sea turtles may have ingested debris.
10 by trapping the pathogen within the cellular debris.
11 t the body surface and feed on skin and gill debris.
12 d at the clearance of pathogens and cellular debris.
13 ay sporulate in planta, as well as in forest debris.
14     This causes a buildup of unengulfed cell debris.
15  in the lesion core, and helped clear myelin debris.
16 r transport pathway for all sizes of plastic debris.
17 ble of phagocytizing extracellular lens cell debris.
18 genic pressures and concentrations of marine debris.
19 lia responded by phagocytosing the resulting debris.
20 f growth factors and the removal of cellular debris.
21 red tolerogenically along with the eryptotic debris.
22  and the fixation of device materials within debris.
23 of the olfactory bulb phagocytose the axonal debris.
24 arbohydrates represent exclusively cell-wall debris.
25 sease by promoting the clearance of cellular debris.
26 5, by human macrophages stimulated with cell debris.
27  act as phagocytes to remove toxic apoptotic debris.
28 red waste available to become plastic marine debris.
29 ight reverse-shocked main shell of expanding debris.
30 nd clearance of apoptotic cells and cellular debris.
31 agosome processing and accumulation of lipid debris.
32 porter activation and phagocytosis of axonal debris.
33  for the first time fungal genera on plastic debris.
34 rons, facilitating the clearance of cellular debris.
35 nsequence, fail to clear degenerating axonal debris.
36 d digested that speck-containing, pyroptotic debris.
37 ), biomass combustion (4-13%) and vegetative debris (1-3%).
38                               Flat pieces of debris (2 to 5 mm in length) typically have one face tha
39 h U(IV) and U(VI) on fibrous and woody plant debris (48 +/- 10% U(IV), x +/- sigma, n = 22).
40              After removal of cells and cell debris, a 0.50 mL sample (e.g., cell culture medium) is
41                 Results show that ice-rafted debris accumulated constantly throughout the core; this
42 eature of the ageing retina as extracellular debris accumulates between photoreceptors and their bloo
43 n the natural environment where most plastic debris accumulates.
44 s is that the clearance of axonal and myelin debris after a nerve injury is directed primarily by inf
45 detected solely in association with O. tauri debris after viral lysis, and unlike other allomers were
46 ect to background from surface artifacts and debris, although image processing can partially compensa
47 have been shown previously to contain myelin debris, although its significance has not been examined.
48  of organisms in the water column to smoking debris and associated toxicants, and highlight the risks
49 form surface covered by regolith composed of debris and blocks ranging in size from centimeters to 5
50 men with presence of some internal echogenic debris and calcified foci in their dependent part.
51 bris ingestion) by incorporating exposure to debris and consequence of exposure, and included life hi
52 regeneration and synapse pruning to clearing debris and controlling tumor cell progression.
53 or changes in the concentration of englacial debris and corresponding surface topography, and that ov
54 te the ever-increasing prevalence of plastic debris and endocrine disrupting toxins in aquatic ecosys
55 uries is necessary for clearance of necrotic debris and for coordination of tissue regeneration.
56     Additionally, H. fraxineus colonises ash debris and grows in soil in the absence of ash tissues.
57 ectively), turtles encountered 46 artificial debris and ingested 23 of them.
58  bodies) can facilitate removal of apoptotic debris and intercellular communication.
59                   Importantly, "free" myelin debris and lipid peroxidation activity at CNS lesions wa
60 ocks in dead organic matter, including woody debris and litter, reduces the reliability of assessing
61 n the basis of our comparisons of ice-rafted debris and polar planktonic foraminifera--abrupt transit
62  macrophages (MZMs), which normally clear AC debris and prevent follicular entry of AC-Ags.
63 me more effective in the cleanup of ischemic debris and produce trophic factors that may promote brai
64  infiltrating macrophages clears up cellular debris and promotes tissue repair, but it also inflicts
65 ry cascade that leads to removal of cellular debris and promotion of healing.
66               Here we document the amount of debris and rate of accumulation on Henderson Island, a r
67 r fireball as it relates to the formation of debris and the fixation of device materials within debri
68 ology with increased RPE thickness, cellular debris and vacuole formation indicating that autophagy i
69 est pathogens, infected and dying cells, and debris, and can recruit and regulate other immune cells
70 selective cell attachment, removal of myelin debris, and expansion of the initial SC population in ch
71  for synaptic pruning, clearance of neuronal debris, and for muscle differentiation.
72 n together, plant biomarkers, clustered bone debris, and hominin remains define a clear spatial patte
73 ral assemblages, the abundance of ice-rafted debris, and sortable silt grain size data.
74 ective cores, high reflective cores, conical debris, and split drusen.
75 s, the levels of inhibitory CSPGs and myelin debris, and the extent of immune cell activation between
76 cations are the contact surface and the wear debris, and the latter contains important 'historical' i
77 line reacted with self-antigens in apoptotic debris, and the survival of a third ABC line was sustain
78     Therefore, it is possible that bacterial debris, apart from bacterial proliferation, triggers a s
79                                   Artificial debris appeared in all green turtles in feces (25/25) an
80           Antigens associated with apoptotic debris are known to be processed tolerogenically in vivo
81 econdary ocular blast injuries due to flying debris are more common, primary ocular blast exposure re
82  interaction in which the positive effect of debris area weakened the negative effect of barnacle cov
83 ction can lead to Adverse Reactions to Metal Debris (ARMD) similar to those seen with CoCrMo bearings
84 sexual form it overwinters on infected plant debris as pseudostromata, and travels short distances by
85 ides a renewed focus on infected erythrocyte debris as the cause of endothelial damage and challenges
86 production, and remove synapses and cellular debris, as well as participating in "cross-correction,"
87 urface cooling and the arrival of ice-rafted debris at a site southwest of Iceland over the past four
88 events of cellular overlap and extracellular debris attachment.
89                                    Apoptotic debris, autoantibody, and IgG-immune complexes (ICs) hav
90 lls phagocytosed not only somatosensory axon debris but also debris created by injury to other periph
91 itation increase the carbon density of woody debris, but decrease that of litter.
92 are very few large-scale programs to measure debris, but many peer-reviewed and published scientific
93 a in EAE by regulating the removal of myelin debris by CNS APCs and thereby limiting the substrate av
94 porozoites away from mosquito salivary gland debris by density gradient centrifugation eliminated sal
95 tro, AIM enhanced the engulfment of necrotic debris by macrophages derived from zymosan-induced perit
96  that ischemic cell death and uptake of cell debris by macrophages in the heart fuel a fatal response
97 3CR1-deficient mice, the clearance of myelin debris by microglia was blocked greatly, affecting the i
98 ancer cells followed by phagocytosis of cell debris by MPhi.
99   Phagocytosis of the primary olfactory axon debris by OECs was first detected at E14.5.
100 nderwent neurocognitive assessments, and the debris captured was analyzed.
101  More than 1,500 construction and demolition debris (CDD) landfills operate in the United States (U.S
102 laser systems may find applications in space-debris cleaning.
103 or pathway as a positive regulator of myelin debris clearance and a key player in the age-related dec
104 ozygote GALC mutant mice have reduced myelin debris clearance and diminished remyelination after a de
105 owth factor expression, and efficient myelin debris clearance, all of which influence OL replacement.
106 t, Trem2(-/-) mice exhibited impaired myelin debris clearance, axonal dystrophy, oligodendrocyte redu
107  injury or disease due to inefficient myelin debris clearance.
108 m or, alternatively, out of comparable-sized debris clumps paired in the aftermath of major collision
109 e micro-, small micro-, and nanoplastics) of debris collected in the North Atlantic subtropical gyre.
110 ning all lack the ability to remove cellular debris completely, which is necessary to prevent prion t
111 he ability of lysosomes to degrade apoptotic debris contained within IgG-immune complexes (IgG-ICs) a
112                         Phagocytosis of axon debris continued into the postnatal animal during the pe
113 to our solar system, traces of the supernova debris could be deposited on Earth.
114 itude mountain systems, and demonstrate that debris-covered glaciers are among the most sensitive rec
115                      Moraine-dammed lakes at debris-covered glaciers are becoming increasingly common
116 hology and internal debris within cold-based debris-covered glaciers in Antarctica.
117  open the possibility that similar-appearing debris-covered glaciers on Mars may likewise hold clues
118                          The degree to which debris-covered glaciers record past environmental condit
119                                     Cellular debris created by developmental processes or injury must
120  not only somatosensory axon debris but also debris created by injury to other peripheral axons that
121    One major difficulty is dating ice-rafted debris deposits associated with Heinrich events: Extensi
122 ing phagophore with pre-selected cargoes and debris derived from different membranous organelles insi
123 emporal-resolution records of iceberg-rafted debris derived from the Antarctic Ice Sheet, and perform
124 d and published scientific studies of marine debris describe local patterns.
125                         The star has a dusty debris disk, and the star's spectrum shows prominent lin
126 , together with the existence of warm, dusty debris disks surrounding about four per cent of white dw
127                                       These 'debris disks' were thought to be by-products of planet f
128                Defects in clearing apoptotic debris disrupt tissue and immunological homeostasis, lea
129 rmed a spatial risk analysis using predicted debris distributions and ranges for 186 seabird species
130 ) double-positive population after excluding debris, doublets and dead cells from the analysis.
131 d as fossil fuel today was formed from plant debris during the late Carboniferous and early Permian p
132 ndicates that the fiber staple length and/or debris encapsulated inside the fabric from the yarn spin
133  and phenotypic conversion, directly linking debris engulfment to tissue repair.
134 buted only a minor role to clearing the axon debris, even after widespread degeneration of olfactory
135 thern Ocean (Atlantic-sector) iceberg rafted debris event appears to have occurred synchronously with
136 ey climate data sets spanning iceberg-rafted debris event Heinrich 3 and Greenland Interstadial (GI)
137 tigens present in apoptotic bodies, necrotic debris, exosomes or even release of non-vesicular antige
138  and ranges for 186 seabird species to model debris exposure.
139  at infrared wavelengths of water ice on two debris falls in the Imhotep region of the nucleus.
140 rains of pure ice as observed in the Imhotep debris falls is best explained by grain growth by vapour
141 nts (10/10), and green turtles ingested more debris (feces; 15.8 +/- 33.4 g, gut; 39.8 +/- 51.2 g) th
142 ismic records, we also detected 20 landslide/debris flow events, which we use to estimate the sedimen
143 lated to three different sedimentary facies: debris flow facies, channel facies and floodplain facies
144                            Here we determine debris-flow size, frequency and associated water volumes
145 ents such as rock avalanches, landslides and debris flows can lead to serious bank erosion and inunda
146 water volumes in Istok crater, and show that debris flows occurred at Earth-like frequencies during h
147                                              Debris found within filters in 99% of patients included
148 ing a continuous cryogenic hydrogen jet as a debris-free, renewable laser-driven source of pure proto
149 ional characteristics of tribofilms and wear debris from an IL-lubricated steel-steel contact.
150  climatic change are likely to transfer more debris from coastal cities into marine and coastal habit
151 tem of grass, and started to intently remove debris from his teeth.
152 tion of molybdenum in five samples of glassy debris from the 1945 Trinity nuclear test has been measu
153 er cent of white dwarfs, suggests that rocky debris from the planetary systems of white-dwarf progeni
154 dic hip implants are known to differ and the debris generated varies in size, shape and volume.
155 ith oxygen to form an oxide interlayer, wear debris generation and breakdown, tribofilm growth via me
156 munity, the phagocytic clearance of cellular debris has been considered an integral component of reso
157 lar mechanism for removal of toxic apoptotic debris has been identified in the lens.
158               High concentrations of plastic debris have been observed in the oceans.
159 nvolving edema, intra-alveolar proteinaceous debris, hemorrhage, increased neutrophils and cytokines,
160              TCEP was safe, captured embolic debris in 99% of patients, and did not change neurocogni
161          As the mere presence of particulate debris in brain matter may not correlate with the extent
162 receptor that promotes clearance of cellular debris in C. elegans, Drosophila and mammals.
163 ght be explained by encounters with cometary debris in Earth-crossing orbits (Taurid Complex) that wa
164       Frequency of occurrences of artificial debris in feces and gut contents collected from loggerhe
165 c fungi that were commonly found in chickpea debris in fields, A. rabiei effectively suppressed the g
166    We assessed the presence of anthropogenic debris in fishes and shellfish on sale for human consump
167 report some of the first findings of plastic debris in fishes directly sold for human consumption rai
168  The encounter-ingestion ratio of artificial debris in green turtles (61.8%) was significantly higher
169 M in facilitating the clearance of dead cell debris in injured kidney, which is a key response in the
170 as observed to contain pentamers among lipid debris in negatively stained grids by electron microscop
171 ival or subretinal haemorrhage and mild cell debris in the anterior vitreous) were generally mild and
172 gical and ecological effects of microplastic debris in the environment.
173                                      Plastic debris in the marine environment is widely documented, b
174 g evidence that biofilm formation on plastic debris in the marine environment may be essential for it
175 leaving behind distinct layers of ice-rafted debris in the ocean sediments.
176 served in lungs along with persistent fungal debris in the perivascular regions of the lungs.
177 yzed a global compilation of data on plastic debris in the water column across a wide range of river
178 idermal cells phagocytose somatosensory axon debris in zebrafish.
179 ponsible for removing pathogens and cellular debris, in addition to helping to refine CNS neuronal co
180 long-lived radioactivity and nuclear weapons debris including plutonium (Pu), the legacy of which is
181                      Additionally, the woody debris increases significantly with above ground biomass
182 therapeutic agent for the prevention of wear debris-induced inflammation and osteolysis.
183 d animals are not a biased representation of debris ingestion rates in the background population.
184         We modelled the risk (probability of debris ingestion) by incorporating exposure to debris an
185 stage sea turtles are at the highest risk of debris ingestion, and olive ridley turtles are the most
186  Life history stage is the best predictor of debris ingestion, but the best-fit model also incorporat
187 he number of sea turtles globally at risk of debris ingestion.
188  a predictor we calculate the global plastic debris inputs form rivers into the sea to range between
189 led that epidermal cells rapidly internalize debris into dynamic phosphatidylinositol 3-monophosphate
190 duced storms of increasing severity to eject debris into the oceans.
191                               Marine plastic debris is a global environmental problem.
192                                      Plastic debris is a growing contaminant of concern in freshwater
193 enhancing endogenous clearance of tumor cell debris is a new therapeutic target that may complement c
194                                      Plastic debris is a prolific contaminant effecting freshwater an
195                                      Plastic debris is a widespread contaminant, prevalent in aquatic
196                      Ingestion of artificial debris is considered as a significant stress for wildlif
197 of these mice, the fate of the degraded axon debris is easily visualized.
198 nisms that prevent accumulation of apoptotic debris is important for establishing the etiology of the
199                                      Plastic debris is one of the most significant organic pollutants
200 act even after multiple wounding, while cell debris is simultaneously removed using laminar flow cond
201              The total accreted mass of this debris is sometimes comparable to the mass of large aste
202                     Phagocytosis of neuronal debris is usually performed by macrophages or other bloo
203                                      Plastic debris is widespread in the environment, but information
204                 Floating and stranded marine debris is widespread.
205                    An estimated 37.7 million debris items weighing a total of 17.6 tons are currently
206 jecta with a companion star or circumstellar debris lead to a sudden brightening lasting from hours t
207 s volume and the normal applied force at the debris level.
208 ulting in a wear coefficient of unity at the debris level.
209                                      Plastic debris loads, both microplastic (particles <5 mm) and ma
210  the release of metallic ions and solid wear debris (mainly titanium dioxide) leading to peri-implant
211                          Microscopic plastic debris (microplastics, <5 mm in diameter) is ubiquitous
212 ath or to ineffective clearance of apoptotic debris, modification of self-antigens during inflammator
213 s, and assist in prioritizing future plastic debris monitoring and mitigation strategies.
214   We find that the gas stream of the stellar debris moves chaotically in the binary potential and for
215 highly oxidized molecular species, oxidative debris (OD), adsorbed on it.
216 a instead remain trapped within the cellular debris of pyroptotic macrophages.
217  sludge waste is produced containing largely debris of silicon, and silicon carbide, which is a commo
218 are to a large extent due to scattering from debris on fiber surface and helical twisting of the fibe
219 les are derived from the breakdown of larger debris or can enter the environment as microscopic fragm
220 locular lesion without any solid components, debris or septations.
221 nied by crystal explosion due to ejection of debris or splintering, the chiral PGA crystals respond t
222     A substantial fraction of marine plastic debris originates from land-based sources and rivers pot
223 ling events and the appearance of ice-rafted debris over the last glacial cycle, leading to the hypot
224  Pb isotope composition of a nuclear fallout debris particle has been directly measured in post-deton
225 ng of how contacting asperities lead to wear debris particle has remained elusive.
226                    A large amount of silicon debris particles are generated during the slicing of sil
227 ar at the most fundamental level, i.e., wear debris particles.
228 fractions corresponding to a 10000g cellular debris pellet, a 100000g crude exosome pellet, and an Op
229  a more youthful profile and enhanced myelin debris phagocytosis by patient cells.
230  receptor agonists partially restored myelin debris phagocytosis in aged macrophages.
231                               Plastic marine debris pollution is rapidly becoming one of the critical
232                           The hazard plastic debris poses to biodiversity is well established, but mi
233 ted distance from stranding location, marine debris predictions specific to the date of the stranding
234 acrophages specialize in removing lipids and debris present in the atherosclerotic plaque.
235 tion removes large cardiomyocytes and tissue debris producing a single cell suspension that is sorted
236 rmanent magnet, Further, removal of the cell debris, proteins, and carbohydrates was done using wash
237 terile fecal filtrates (containing bacterial debris, proteins, antimicrobial compounds, metabolic pro
238                      Nucleic acid-containing debris released from dead and dying cells can be recogni
239 ms underlying community diversity on plastic debris remain poorly understood.
240                 Hemocytes appear involved in debris removal and seem to produce factors that foster a
241 in addition to its known role in defense and debris removal, the hematopoietic system provides critic
242 blood-derived immune cells to the lesion for debris removal.
243 les that scavenge extracellular nucleic acid debris represent potentially safer agents to control pat
244 mass spectrometry (APGC-MS/MS), complex fire debris samples collected from simulation fires were anal
245  amount of molybdenum in the Trinity nuclear debris samples, it is possible to calculate the original
246 ytic signals of polyethylene with decreasing debris size, which could be related to the structural mo
247 ositive effect that was strongest at smaller debris sizes.
248 m California to Hawai'i, we surveyed plastic debris, some likely originating from the 2011 Tohoku tsu
249 otion, microembolization of atherothrombotic debris, stasis with intravascular cell aggregates, and f
250 hemotherapy or targeted therapy ("tumor cell debris") stimulate primary tumor growth when coinjected
251         These mediators specifically inhibit debris-stimulated cancer progression by enhancing cleara
252                                              Debris-stimulated tumors were inhibited by antiinflammat
253                                    Apoptotic debris subsequently disappeared concurrent with an incre
254 dies of the size distribution of the plastic debris suggested that continued fragmenting of microplas
255                          Microscopic plastic debris, termed "microplastics", are of increasing enviro
256 rganic carbon, such as leaf litter and woody debris that accumulate in soils and subsurface sediments
257 is highly sensitive to surface artifacts and debris that can easily mask nanoparticle signal.
258  accompanied by appearance of PSD95-positive debris that colocalized with the processes of activated
259 s could result in accumulation of toxic cell debris that could contribute to UV light-induced catarac
260 ls, yet it simultaneously creates tumor cell debris that may stimulate inflammation and tumor growth.
261 lanets formed from gas-starved mass-depleted debris that remained after the primary period of dynamic
262 ions, definitions of what constitutes marine debris, the methods used to measure, and the scale of th
263 ermination of the amount of plutonium in the debris, these measurements of extinct fission products a
264 by removing/recycling damaged organelles and debris through the action of lysosomes.
265 t the risks posed by smoked cigarette filter debris to aquatic life.
266 earcher and media alarms have caused plastic debris to be perceived as a major threat to humans and a
267 d on the semi/nonvolatile components of fire debris to better understand firefighter exposure risks.
268 ath of oaks increased inputs of coarse woody debris to the surface of the soil, much of which is stil
269  investigate how turtles react to artificial debris under natural conditions, we deployed animal-born
270                         Approximately 68% of debris (up to 4,496.9 pieces/m(2)) on the beach was buri
271 function in young mice caused delayed myelin debris uptake and slowed remyelination after experimenta
272 nist HX531, mimics ageing by reducing myelin debris uptake.
273              Well sorted sediments with high debris usually possess strong compaction resistance to p
274 cancer progression by enhancing clearance of debris via macrophage phagocytosis in multiple tumor typ
275 o correlation, however, is found between the debris volume and the normal applied force at the debris
276     This study provides an estimation of the debris volume without any empirical factor, resulting in
277 that the asperity junction size dictates the debris volume, revealing the origins of the long-standin
278 ngential work, is always proportional to the debris volume, with a proportionality constant of 1 over
279 e injury is required for clearance of tissue debris (Wallerian degeneration) and effective regenerati
280                                Anthropogenic debris was also found in 33% of individual shellfish sam
281 at 25 d after immunization, and clearance of debris was followed by persistently reduced synaptic den
282         Similarly, in the USA, anthropogenic debris was found in 25% of individual fish and in 67% of
283                  In Indonesia, anthropogenic debris was found in 28% of individual fish and in 55% of
284 ing Schwann cells after nerve injury, myelin debris was present in autophagosomes, and pharmacologica
285      In all conditions, we found that myelin debris was present in most astrocytes at sites of acute
286                                    Insoluble debris was removed by centrifugation.
287                         Functionally, myelin debris was taken up by astrocytes through receptor-media
288                               The density of debris was the highest reported anywhere in the world, u
289 y implementing ITS2 metabarcoding on plastic debris, we identified and characterized for the first ti
290 Concentration ranges in household simulation debris were observed at 0.01-5.32 ppb (PXDFs) and 0.18-8
291 ncentration ranges in electronics simulation debris were observed at 0.10-175.26 ppb (PXDFs) and 0.33
292  samples, consisting of collected foot borne debris, were taken at SRS over an eleven year period, fr
293  decline in the phagocytic removal of myelin debris, which contains inhibitors of oligodendrocyte pro
294 matory reaction clears dead cells and matrix debris, while prolongation or expansion of the inflammat
295 and the angular velocity and geometry of the debris will be directly measurable by very long baseline
296 f the mass distribution points out a lack of debris with mass lighter than 1 mg.
297      Turtles seemed to confuse solo drifting debris with their diet, and omnivorous green turtles wer
298                                      Smaller debris, with a cubic shape (below 2 mm), seems to roll a
299 ved from the surface morphology and internal debris within cold-based debris-covered glaciers in Anta
300                                    Vesicular debris within lens cells exposed to UV light has been ob

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