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1  the ER by KDEL receptor-mediated retrograde transport.
2 omic-level description of alternating access transport.
3 d lower than the placebo rate in TRAFFIC and TRANSPORT.
4 owth, cellular trafficking and transmembrane transport.
5 ein/dynactin complex in anterograde mbp mRNA transport.
6 koids exhibited a decreased rate of electron transport.
7 ppear to play an active role in phospholipid transport.
8  emissions and long-range (transcontinental) transport.
9 tic impacts on hydrology that drive nutrient transport.
10 hysiology through dynamic regulation of K(+) transport.
11 and reordering, and thus a slowing of cation transport.
12 ve ballistic, diffusive, and arrested atomic transport.
13 xes and identifies a novel regulator of slow transport.
14 nt metal ion transporter best known for zinc transport.
15 ance to oxidative stress, apoptosis, and ion transport.
16 ition of GSK-3beta promotes dynein-dependent transport.
17  that GOAL nanochannel height dictates water transport.
18 superconductivity, as well as probe electron transport.
19 are important for regulation of cellular ion transport.
20 ture one observes the emergence of ambipolar transport.
21 orrelation between ATPase activity and Cu(I) transport.
22 calcein AM (P-gp), and pheophorbide A (BCRP) transport.
23 tion of NUPs and defective nucleocytoplasmic transport.
24  Na/K-ATPase-mediated ATP hydrolysis and ion transport.
25 rt RNA, but they are involved in cholesterol transport.
26 e positive charges and thus facilitate their transports.
27 ) may reach the atmosphere via direct bubble transport (0-2 kt yr(-1)) and via diffusive exchange of
28 alogues of common phospholipids but does not transport a glycosylated diphosphate isoprenoid lipid.
29 g cascade that leads to disruption of axonal transport, a critical function for neuronal survival.
30 replacement, we show that inhibition of K(+) transport abolishes RBC electrophysiological rhythms.
31 oprotein, HDL) synergize to facilitate Abeta transport across bioengineered human cerebral vessels.
32                       Abeta release from and transport across HBMEC were significantly increased by t
33                          However, nucleotide transport across the additional plastid membranes remain
34 ty and inflammation that influence leukocyte transport across the BBB.
35 e described by first order rate constant for transport across the lipid bilayer with values in the ra
36  Furthermore, MRI-based estimates of Gd-DTPA transport across these barriers might be useful to estim
37  resulted in saturable high-affinity nitrate transport activity and nitrate selectivity.
38                        Intracellular glucose transport activity of the p.Arg176Trp and p.Ala210Val SL
39 he transmembrane helix of TatB that restored transport activity to Tat signal peptides with inactivat
40                   C1P induced P-glycoprotein transport activity without changing transporter protein
41  how membrane and tissue-level accumulation, transport activity, and interaction contribute to PIN fu
42 ingly, in the absence of sodium-dependent Pi transport activity, the PiT1-PiT2 heterodimerization was
43 utation was able to sustain 15% of wild-type transport activity, when the catalytic glutamate of the
44 himera was inactive, we demonstrate fructose transport after introduction of four amino acids derived
45                      Early endosome-to-Golgi transport allows the toxins to evade degradation in lyso
46 other ATP-binding cassette transporters that transport amphipathic or hydrophobic substrates in a det
47 ur results describing the role of MT in vRNA transport and assembly expand upon previous studies char
48 al recognition and transduction, metabolism, transport and catabolism.
49 photosynthetic organisms perform this energy transport and charge separation with near unity quantum
50 f human erythrocytes, and identified glucose transport and glyceraldehyde-3-phosphate dehydrogenase a
51                                      Glucose transport and glycolysis in activated CD4(+) T cells wer
52 ticles and they cluster during the vesicular transport and maturation.
53 phase hydrodynamic properties on non-Fickian transport and saturation-dependency of dispersion are di
54                                     Fast ion transport and superior mechanical properties of solid el
55 ulated mechanism that controls osmotic water transport and systemic water balance in mammals.
56 evealed that MOFs are internalized by active transport and that inhibiting the caveolae-mediated path
57 (PM2.5) pollution as a result of atmospheric transport and the production and consumption of goods an
58 nslationally modified microtubules for cargo transport and thereby spatially restrict focus formation
59 e measurements to quantify 6 steps of oxygen transport and utilization (the O2 pathway) in each patie
60 f water scarcity are found to be the cost of transporting and storing water, society's institutions t
61 egral constituents of the NPC whose barrier, transport, and cargo release functionalities establish a
62 localized fields and can be used to capture, transport, and detect individual superparamagnetic micro
63 s into their electrocatalytic behavior, mass transport, and interactions with surfaces.
64 S-acylation/deacylation cycles and vesicular transport are critical for an adequate subcellular distr
65  yet the mechanisms of carotenoid uptake and transport are not well-understood.
66         Molecular mechanisms regulating this transport are poorly understood.
67 es drug vascular extravasation and diffusive transport as key RF-modulated parameters, with transport
68 e sperm DNA, centrioles, and organelles were transported as a unit with the yolk granules, resulting
69 ent magnetic monopoles, charge screening and transport, as well as magnonic response.
70 try, and radio-ligand uptake and fluorescent transport assays on ZntB reconstituted into liposomes.
71 ate the molecular mechanism that couples the transport-associated inward release of the Na(+) ion fro
72 ly theories provide estimates of the heat of transport at infinite dilution.
73 ons and demonstrate a beam-like hot electron transport at initial time-scales that may be attributed
74 scade to dynamically regulate P-glycoprotein transport at the BBB and offers potential clinical targe
75 iodically reactivate in those neurons and be transported back to the body surface.
76 he effect of the interface on the electrical transport behavior of a small-resistance GaSb sample and
77 ual role of zeroth LLl mode in transport.The transport behavior of the carriers residing in the lowes
78 ansport as key RF-modulated parameters, with transport being dominant.
79 role of ER-PM contacts in nonvesicular lipid transport between the two bilayers mediated by lipid tra
80  during the LGM, with little surface nitrate transport between them.
81 norings to elucidate the differences in mass transport between these geometries.
82 is selective for ornithine, whereas TbAAT2-4 transports both ornithine and histidine.
83 can dynamically couple protein diffusion and transport by cortical flow to control kinase activity gr
84       We also advance a new model for Ca(2+) transport by the enamel organ.
85                                        Anion transport by the human sodium-iodide symporter (hNIS) is
86                                     Chloride transport by the renal tubule is critical for blood pres
87                                   TTLL-11 is transported by ciliary motors.
88 lex mixture of solutes and macromolecules is transported by the phloem.
89 (MCU) is a highly selective ion channel that transports Ca(2+) into the mitochondrial matrix to modul
90 se experimental findings are rationalized by transport calculations and also agree with recent "magic
91 molecular characteristics that permit charge transport can render the materials stiff and brittle.
92 many active edge sites, enhanced mass/charge transport capability, easy release oxygen gas bubbles, a
93 ct and functionally cooperate to enhance ANT transport capacity and mitochondrial respiration.
94 mically mutant mice showed impaired electron transport chain activity and accumulated autophagy marke
95 ycle and is located upstream of the electron transport chain.
96 eactive oxygen species (ROS) by the electron transport chain.
97 iration due to lack of NADH for the electron transport chain.
98 try were used to characterize Na(+) and H(+) transport, charge translocation, and thermal stability o
99                                 CLC proteins transport chloride (Cl(-)) ions across cellular membrane
100 lection of the Rab27a/melanophilin/myosin Va transport complex.
101 into the molecular organization of cytosolic transport complexes and identifies a novel regulator of
102                                The enstrophy transport conditional on flow topologies in turbulent pr
103  but temperature fluctuations during vaccine transport could cause vaccine potency loss that could go
104 , which also depends on intracellular Ca(2+) transport, could be affected by the loss of nBMP2.
105 rted patients met emergency medical services transport criteria.
106      We examined the individual steps in the transport cycle by recording transporter-associated curr
107  membranes and PELDOR measurements along the transport cycle indicate that McjD does not undergo majo
108                                       Axonal transport defects are rescued by CRISPR/Cas9-mediated ge
109 axon morphology and mitochondrial retrograde transport defects observed in actr10 mutants are distinc
110 to MATR3 mutations and further link cellular transport defects to ALS.
111 ular pores, confirming a significant thermal transport degradation with respect to the bulk.
112   Identifying genes important for carotenoid transport, deposition, and processing has been difficult
113 hetic cells, in most tree species, for which transport distances are largest, loading seems, counteri
114  efflux pumps confer multidrug resistance by transporting diverse antibiotics from the cell.
115 ntial alignment of the CTD with reference to transport DNA.
116 on of C lost to the atmosphere vs. stored or transported downstream.
117 e or in combination with MDR1, significantly transported doxorubicin.
118  the former is caused by a 400 K non-linear-transport-driven instability and the latter is caused by
119        In the present study, we retrogradely transported dye from the central nucleus of the amygdala
120                                   We measure transport (electrical and thermal), mechanical, and morp
121      We also provide evidence that substrate-transport elicited endocytosis of other amino acid perme
122 o criteria air pollutants, particularly from transport emissions, and high exposure to several air to
123  report optical spectroscopic and electronic transport evidence for the formation of an excitonic ins
124 ctor pheromone, which could potentially also transport farnesol for virulence and quorum sensing.
125                                      Besides transporting fat, TGs also act as stored fat in adipose
126  reactive regions, determined by hot-carrier transport from high-field regions, paves the way for imp
127 cribed paracellular route to modulate solute transport from the interstitium according to biomechanic
128 ns is chiefly controlled by diffusional mass transport from the solution to the sensing film, resulti
129 ow that Vps13p is directly required both for transport from the trans-Golgi network (TGN) to the late
130  metabolic core functions including membrane transport from which type VI secretion systems were in p
131 ement complex routing networks and selective transport functionalities in chip-based devices using ma
132 promotes the plus-end localisation and cargo transport functions of dynein in vivo.
133  successive junctions creates a gate-tunable transport gap without significantly compromising the on-
134 mponents, including Krebs cycle and electron transport genes, decreased by 43% +/- 5% (mean +/- SD).
135 framework of a plant cell to show metabolic, transport, genetic, developmental and signaling pathways
136 AR-P16N 152 degrees W line reveal the recent transport history of the Fukushima radioactivity tracer
137 cilia is thought to depend on intraflagellar transport (IFT) and diffusion.
138 y computed tomography (CT) for investigating transport in a heterogeneous porous medium.
139  potential role played by polarons in charge transport in CH3NH3PbI3.
140 clarify the microscopic mechanism of thermal transport in MgSiO3 pv, and provide reference data for u
141      Intriguingly, enhancement of retrograde transport in mutant hAPP neurons facilitates the traffic
142 -initio based computational study of thermal transport in nanocrystalline Si-based materials using a
143 ons to the understanding of human intestinal transport in normal physiologic conditions and the patho
144 icantly decreased glutamate metabolism metal transport in oral cancer patients.
145 dings reveal the importance of intracellular transport in steady-state lymph formation and suggest th
146 ght the importance of kinesin-3 based axonal transport in synaptic transmission and provide novel ins
147 s, contribute significantly to the enstrophy transport in the CF regime.
148 sulting in dysregulation of epithelial fluid transport in the lung, pancreas and other organs in cyst
149         Evaluating pesticide degradation and transport in the soil-surface water continuum remains ch
150 associated with reduced astrocytic glutamate transport in the VMH.
151 -Retinol is esterified in the enterocyte and transported in the blood analogous to retinol.
152 s the synaptotoxicity and deficits of axonal transport induced by Abeta.
153                               Members of the TRANSPORT INHIBITOR RESPONSE1/AUXIN SIGNALING F-BOX PROT
154          Likewise, MtMATE67-mediated citrate transport into the symbiosome space would increase the s
155 s dataset yields insights into how vesicular transport is adapted to the specialized functions of dif
156 e demonstrate that the augmentation of Na(+) transport is caused predominantly by increasing the numb
157 ntrast to the Arctic, long-range atmospheric transport is deemed less important than human-induced ma
158 mics together with their influence on phonon-transport is essential to explore and design crystalline
159                                       Charge transport is investigated for solution-sheared films in
160  When the receiving arm is charged with KCN, transport is much faster (ca. 100 h) and higher K2MX4 eq
161  investigate whether increased endogenous SL transport is sufficient to improve plant nutrition and p
162                            Nucleocytoplasmic transport is sustained by karyopherins (Kaps) and a Ran
163                     Microtubule-based axonal transport is tightly regulated by numerous pathways, ens
164 -protein complexes captures solar energy and transports it to the reaction center, where charge separ
165  with a conserved role for SLC25A3 in copper transport, its heterologous expression in yeast compleme
166 ates voids or pinholes generated in the hole-transporting layer.
167 teristics are accomplished by novel electron transport layers (ETLs) and engineered quantum dots (QDs
168 ts out the importance of matching the charge transport layers in perovskite solar cells when the pero
169 adjacent materials, making them ideal charge-transport layers in phototransistor devices.
170 polymers and unipolar small molecules as the transport layers, to achieve reliable and fast programmi
171 600 nanometers before reaching the diffusive transport limit.
172 ced primarily by astrocytes and functions in transporting lipids including cholesterol to support neu
173 e compounds to protect soldiers and simplify transport logistics.
174 ological structure of F-actin and in protein transport, loss of this function might be the trigger fo
175 ynactin and cargo adaptor proteins to form a transport machine capable of long-distance processive mo
176 SCRT (endosomal sorting complex required for transport) machinery.
177 uilding blocks for the synthesis of electron transport materials.
178 ion lengths of holes and electrons, electron transporting materials (ETMs) used in PSCs play a critic
179 al dichalcogenides, which may enable quantum transport measurements and devices.
180 ectronic absorption spectroscopy, electrical transport measurements and electronic structure calculat
181  derive this result from high-magnetic-field transport measurements in La1.6-x Nd0.4Sr x CuO4 under p
182                              Here, we report transport measurements of a robust sequence of even-deno
183                                   Electrical transport measurements were performed on URu2 - x Fe x S
184 ct has been investigated using low-frequency transport measurements.
185 ined through time- and temperature-dependent transport measurements.
186 indings and analyses, we propose a model for transport mechanism where CmeB protomers function indepe
187 itical for elucidating the bacterial protein transport mechanism.
188 tructural basis underlying these distinctive transport mechanisms is puzzling because CLC channels an
189 vironment is the primary source of the river-transported microbiota, and that cell export from the Gr
190                                        A new transport model is presented that incorporates a range o
191  utilizing a reduced-dimension (1D) reactive transport model.
192 at the N terminus affords the switch between transport modes.
193 sporting P3HT, (ii) semicrystalline electron-transporting N2200, (iii) low-crystallinity hole-transpo
194 -ATPase uses the same sites to alternatively transport Na(+) and K(+) This ping-pong mechanism is sup
195                          Thus, the myosin XI transport network increased in complexity and robustness
196       In mitochondria, TOM and TIM complexes transport nuclear-encoded proteins, whereas the Oxa1 is
197 nd lysosomal catabolism reflecting vesicular transport obstruction and defective lysosomal turnover r
198                 Although the mass and charge transport occurs by advection by thermal velocity fluctu
199 olecular dynamics simulations confirm proton transport occurs through these waters via Grotthuss shut
200  GTPases, Rap1a/b, to facilitate the nuclear transport of beta-catenin, defining a parallel nuclear t
201 ws direct visualization of heterogeneous ion transport of biological samples for the first time.
202 zes to more accurately predict the capillary transport of fluid in porous materials.
203 nt influence of interfacial cavities on mass transport of guest molecules.
204                               RATIONALE: The transport of interstitial fluid and solutes into lymphat
205               Unusual selective/preferential transport of Li ions is demonstrated by preforming an SE
206 rated by an electron barrier that blocks the transport of majority carriers to reduce the dark curren
207                                              Transport of membrane and cytosolic proteins in primary
208                                       Axonal transport of mitochondria and mitochondrial fission and
209 burden cover, which may allow for more rapid transport of MtBE from land-surface releases.
210 ng electrolyte of CaO, which facilitates the transport of O(2-) anions, drastically improves the reac
211 nto and stabilize IFT-B but does not support transport of outer arm dynein into flagella.
212 idging knowledge gaps regarding the land-sea transport of per- and polyfluoroalkyl substances (PFASs)
213  static cross-linker will produce disordered transport of short MTs and increased mobility of longer
214 uted to a new modulation mechanism, in which transport of silver ions through alumina dielectric lead
215                                              Transport of solutes through brain involves diffusion an
216 asmodesmata (PD) development, as well as the transport of some ion transporters.
217 annel in hair cells and is essential for the transport of some of these components into the mechanica
218 ng occurs during capillary-driven, advective transport of the combined liquid over the third wettable
219 ith Caco-2 cells confirmed the transmembrane transport of the dye-integrated UAPs.
220 -3 activity coordinately induce both forward transport of the precursor and cleavage, resulting in nu
221 in the N-terminal lyase domain that promotes transport of the protein independent of its interaction
222 itate the extraction of SV40 from the ER and transport of the virus into the cytosol.
223 thus presents an essential obstacle to brain transport of therapeutics.
224 understandings of dose effect on the in vivo transport of ultrasmall AuNPs open up a pathway to maxim
225 dels of soil vapor intrusion assume that the transport of volatile organic compounds (VOCs) from a so
226  this problem and can help achieve band-like transport on a wide range of substrate platforms.
227  moving organelles to accomplish directional transport on the cytoskeleton in vivo.
228  are of sufficient magnitude to drive phloem transport only in concert with structural changes in the
229  who previously received active treatment in TRANSPORT or TRAFFIC remained on the same dose in PROGRE
230 his series includes (i) semicrystalline hole-transporting P3HT, (ii) semicrystalline electron-transpo
231 indirectly regulates the paracellular Ca(2+) transport pathway by modulating Cldn14 expression in the
232 fects of seasonality, spatial structure, and transport pathway on the magnitude and composition of we
233 of beta-catenin, defining a parallel nuclear transport pathway to Ran.
234 ering, including manipulation of the protein transport pathway, codon optimization, and co-expression
235  and load in NT and CT systems via two major transport pathways: runoff and leaching.
236                        Sixty-two (86%) of 72 transported patients met emergency medical services tran
237 sporting N2200, (iii) low-crystallinity hole-transporting PBDTT-FTTE, and (iv) low-crystallinity cond
238                           The nonequilibrium transport persisted over tens of picoseconds and 600 na
239 ative auxin pattern recovery following auxin transport perturbation.
240         In vitro assays confirmed PhCAT2 can transport Phe, and decreased PhCAT2 expression in PAL-RN
241  is central to a broad range of chemical and transport phenomena.
242 ovide insight into the correlation of energy-transport processes occurring within the assemblies to t
243                         However, the thermal transport properties in TMDs are not well understood due
244           Such a map helps rationalizing the transport properties of the whole family of molecular se
245 s often dominate the electronic- and thermal-transport properties of thermoelectric (TE) materials an
246 ination of low thermal conductivity and good transport properties results in a predicted ZT as high a
247 tructure directly influences gas storage and transport properties.
248 sCOPT1, which encodes a high-affinity copper transport protein, as well as other copper-deficiency ma
249 t nonbiphasic high-affinity nitrate-specific transport protein.
250 (MDR) mediated by ATP-binding cassette (ABC) transport proteins remains a major problem in the chemot
251 ractions with regulators of gene expression, transport proteins, and metabolic pathways.
252 al residues of different classes of specific transport proteins.
253 g high drug concentration can alter vascular transport rate constants along with having direct tumori
254 ministration, exogenous Mn exhibited varying transport rates and continuous redistribution across hea
255 thod with compounds exhibiting slow membrane transport rates.
256  Nup62, Nup98, and Nup153, are recognized by transport receptors (karyopherins) when trafficking larg
257                                     The mass-transport regime is altered from "linear" at very short
258 ion microscopy, demonstrating three distinct transport regimes.
259 eveal that dynein-Snapin-mediated retrograde transport regulates BACE1 trafficking in axons and APP p
260 ed for GC signaling or other drug metabolism/transport-related genes.
261 structural changes in the phloem that reduce transport resistance.
262 model, we propose a framework of how eDNA is transported, retained, and resuspended in stream systems
263 icating that SIDT1 and SIDT2 not only do not transport RNA, but they are involved in cholesterol tran
264 cifically where they are needed, neurons can transport RNAs to sites near synapses to locally produce
265 t stored carbohydrates can be mobilized from transport roots to absorptive roots to maintain respirat
266 as the premier plant cell model for membrane transport, signaling, and homeostasis.
267 techniques reported here will enable thermal transport studies in atomic and molecular chains, which
268 ary epithelial cells (MECs), and the vesicle transport system develops and matures.
269 rmining the susceptibility of the leaf water transport system during strong leaf dehydration.
270 ht on the unusual role of zeroth LLl mode in transport.The transport behavior of the carriers residin
271 pin-mediated dynein-driven retrograde axonal transport, thereby suggesting a potential approach of mo
272                    An understanding of fluid transport through porous materials is critical for the d
273  the free-energy profiles of explicit proton transport through several important D-channel mutants.
274  membranes, dodecyl sulfate blocked chloride transport through the central channel.
275                  Ambulance scene-to-hospital transport times for pickups before noon were 4.4 minutes
276 urvival remained significantly better across transport times of 1 to 5, 6 to 10, 11 to 20, 21 to 30,
277 njured, but policies often require immediate transport to an emergency department regardless of the p
278 As pathogenic cargos, viruses require MTs to transport to and from their intracellular sites of repli
279 r toward the soma and thus enhances protease transport to lysosomes, thereby restoring lysosomal prot
280 nnecting cilium, thus facilitating rhodopsin transport to photoreceptor outer segments.
281  NFS1 cooperates with inhibition of cysteine transport to trigger ferroptosis in vitro and slow tumou
282 ets dispensed on two juxtaposed branches are transported to a coalescence station, where they merge a
283       NRGs have generally been thought to be transported to axons and presynaptic terminals where the
284 ous peptides processed by the proteasome and transported to the ER by the transporter associated with
285 somes containing D2LR and PDGFRbeta are then transported to the Golgi apparatus, where those complexe
286 diated by auxin synthesized in the blade and transported to the petiole.
287  sequence, bind ST-FRB in the Golgi, and are transported together back to the ER by KDEL receptor-med
288 ure cilia and is required for intraflagellar transport trafficking.
289 rols solute diffusion at low water contents, transport under these conditions is not well understood.
290 occur when magnetic tension is amplified and transported upward through interactions between ions and
291  C were detected in 4 of 19 cold boxes (21%) transporting vaccine from subnational depots to health f
292 quantities, indicating sea ice as a possible transport vehicle.
293 ffusion, binding/unbinding rates, and active transport velocities using FRAP data that captures intra
294 doses of naloxone, administration routes, or transport versus nontransport after reversal of overdose
295 ity white light was reduced when polar auxin transport was inhibited.
296  the VOC mass flux due to bubble-facilitated transport was orders-of-magnitude higher than under diff
297  Surface drainage has persisted for decades, transporting water up to 120 kilometres from grounded ic
298 inserts into lipid bilayers to turn on anion transport, which can then be turned off through addition
299 ory activity influenced chloroplast electron transport with consequent overreduction of plastoquinone
300                            Fe solubility and transport within and between plant tissues is facilitate

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