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1 culturing, starting from polymerisation of a bare 3D gelatin scaffold, to human mesenchymal stem cell
2                            This finding lays bare a paradox in the functioning of prokaryotic (endo)s
3                                     However, baring a single case report, there is no published liter
4 m1.8 were equal or better tracks compared to bare actin for myoVa-HMM based on event frequency, run l
5 rom mechanically homogenous (i.e., uniform), bare actin, or saturated cofilactin filaments.
6                                    Used as a bare active material or component in hybrids, graphene h
7 rodes improved desalination performance over bare aerogels.
8                                              Bare and carboxyl-terminated CNPs did present some toxic
9 transformation, and impacts of 1 mg L(-1) of bare and citrate coated CeO2-NPs toward an ecologically
10 15, and 50 mg.kg(-1) of dissolved Ce2(SO4)3, bare and citrate-coated CeO2 nanoparticles.
11 cluding the second law of thermodynamics for bare and coarse grained entropy production and the flow
12 ndium tin oxide (ITO) working electrode both bare and coated with a sulfonated charge selective polym
13 ocalize elastic energy at boundaries between bare and cofilin-decorated segments because of their non
14 D cofilin generates fewer boundaries between bare and decorated actin segments where severing occurs
15 This model provides a unified description of bare and ligand-coated nanoparticles, as well as strongl
16                     The comparison between a bare and light trapping cell shows significant enhanceme
17  The comparison of the results obtained from bare and modified platinum electrodes revealed the sensi
18 f bisulfate from acidic electrolytes both on bare, and cyanide-modified Pt(111).
19  positive by ca. 0.4 V to that observed on a bare Au electrode.
20 ated at much lower potentials as compared to bare Au nanowires leading to high activity.
21 n is nullified through the immobilization of bare Au seeds on the surface of a substrate.
22 d on DNA, but none when they are adsorbed on bare Au.
23 designing a colloid-type sensor using a few "bare" Au nanorods deposited on the surface of a colloida
24 ng the HIV-1 DNA marker, as opposed to using bare AuNPs in LF strips.
25 ay less in-plane regular packing compared to bare AuNPs.
26  stereotypical thin OL remyelination and few bare axons at 10 wpi, indicating that demyelination is r
27  The solar water oxidation photocurrent with bare BBL electrodes is found to increase with increasing
28                                          The bare BD-UNCD electrodes of the preconcentrator successfu
29 e degraded Atz in the same platform, using a bare BDD electrode that features remarkable corrosion st
30  in photoluminescence and Raman spectra of a bare bilayer MoS2 (Molybdenum disulfide).
31 s simple and safe, can effectively cover the bare bone around the opened sac, and provide a similar o
32                                  Compared to bare BPs, BPs with TiL4 modification (TiL4 @BPs) can eff
33 urface-induced conformational changes of the bare BSA and its corresponding monolayer.
34                                    Whereas a bare bubble only has a single pressure at which a given
35 ment in the current response compared to the bare carbon paste electrode (CPE).
36                                    While the bare catalyst was severely inhibited by cellular debris,
37 oiety as observed by the predominance of the bare cation IMes-M(+) channel.
38  the space between porous electrodes, either bare (CDI, or capacitive deionization), coated with ioni
39 mes higher external efficiency compared with bare CdS), in which the lowest-order whispering gallery
40 rate of 73 mmol gCdSe-1 h-1 (10x higher than bare CdSe NCs).
41 % efficiency enhancement with respect to the bare cell of same thickness.
42 of 2065mWm(-2), 154% higher than that with a bare CF anode.
43 er the limit of detection for DA compared to bare CFEs.
44 h is approximately 2-fold lower than that of bare CFMEs.
45 thworms inhabiting highly contaminated soils bare close genomic resemblance to those from proximal co
46              A negatively charged uncoated, "bare" CNP with high luminescence loses its PL when posit
47 rode area was used as the working electrode; bare CNT thread was used as the auxiliary electrode; and
48                                          The bare cobalt surface allows for low loss propagation of s
49                      Filaments with a single bare/cofilin-decorated boundary localize energy and forc
50                                          The bare complex is CD-silent, but coordination of an enanti
51 improved characteristics with respect to the bare components.
52  oxide nanorods have been carried out on the bare core fiber with a dual role of zinc oxide followed
53                                  In order to bare cross sections of samples maintaining sub-micron st
54  containing photoelectrodes, compared to the bare Cu2O films, the enhanced performance being rooted i
55                                            A bare Descemet membrane was achieved in all cases.
56  photovoltaics, energy storage elements, and bare die integrated circuits.
57                                For instance, bare diffusion cannot explain the spatial and temporal s
58 y two electrons to the insoluble UO2 using a bare disk gold macroelectrode and anodic stripping volta
59       The experimental results revealed that bare doped silicon microelectrodes are incapable of reso
60  upon H1 association with mononucleosomes or bare double stranded DNA.
61 ease: (i) urease immobilized directly onto a bare EIS [EIS-urease] sensor; (ii) urease atop the LbL f
62      Electrochemical detection of NADH using bare electrode is a challenging task especially in the p
63 rid with using GelMA when it was compared to bare electrode which facilitates the hybridization detec
64 or sensitivity and selectivity occurred from bare electrodes.
65 e stripping peaks of Hg as compared with the bare electrodes.
66  quantifying how quantum interactions modify bare electronic states.
67       Differences were also observed between bare Eu(3+) ion and its complexes, when interacting with
68 cement step enables signal visibility to the bare eye over a wide and clinically relevant concentrati
69 rple to dark brown, which is detectable with bare eyes.
70 bisols and Acrisol) under maize planting and bare fallow regimes located in cold temperate, warm temp
71 y was higher under maize planting than under bare fallow regimes.
72  long-term management regimes (grassland and bare fallow respectively) in addition to carbon metaboli
73 ved in the capacity to mineralise phytate in bare fallow soil was accompanied by an increase in phoD,
74                                              Bare fallowed soil contained lowest concentrations of or
75                     Microbial communities in bare fallowed soil showed a marked capacity to utilise p
76 ropeller phytase genes were most abundant in bare fallowed soil.
77 ty and reduced access to organic material in bare fallowed soils rely upon the action of exoenzymes.
78 te over the nonimprinted compared to that of bare Fe3O4.
79 ion suggests H2O2 or *OH production with the bare film, while functionalization of the interface with
80 nated water supplies, helminth infestations, bare footedness, and poor housing, and still there is a
81 es, including (1) nanoarchitecture design of bare g-C3N4, such as hard and soft templating approaches
82                                              Bare GaInP2 shows a rapid current decay, whereas the GaI
83 ing/stripping cycles compared to cells using bare garnet SSE.
84  Au NPs occurred at the same potential as on bare GC and ITO, respectively.
85                                Compared to a bare GC electrode, the CNF/Nafion modified GC (CNF/Nafio
86 nced their oxidation currents in contrast to bare GC electrode.
87 while the electrodeposition of NiONPs on the bare GCE surface led to the formation of spherical nanop
88  capsaicin in comparison to the CNTs/GCE and bare GCE.
89 form bioconjugate (PB), and immobilized at a bare GCE.
90 otype of a new micro-SORS sensor, which uses bare glass fibers to transfer the laser radiation to the
91 ment in fluorescence intensity compared to a bare glass substrate, which enabled us to image single f
92 ned surface while lipid bilayers were on the bare glass surface.
93 ed tendency of HA to inhibit colonization on bare glass surfaces when silver is absent.
94                                              Bare glassy carbon (GC), bismuth-coated glassy carbon (B
95 l self-assembled layer of DNA on gold and on bare gold (for control).
96 interaction between polyadenylated miRNA and bare gold electrode.
97                 The microchip is made of two bare gold electrodes and PDMS microchamber of 36 nL volu
98 solating and adsorbing TMPRSS2:ERG mRNA onto bare gold electrodes without requiring any surface modif
99                         In situ synthesis of bare gold nanoparticles mediated by stainless steel as r
100 molecularly imprinted polymer microarrays on bare gold SPR imaging chips.
101 e electrochemical properties of the modified bare gold surface following TLR5 immobilization were cha
102 n's ability to interact with and adsorb onto bare gold surfaces.
103 re the NPs, namely alginate, NeutrAvidin and bare gold.
104 ering (GISAXS) reveal that unfunctionalized (bare) gold nanoparticles (AuNP) spontaneously adsorb to
105 h has improved electrochemical activity over bare graphene, sufficient to form a wearable patch for s
106 vegetation originated by the colonization of bare ground during circa 1760-1790 or since circa 1850.
107 ncreases with slope, whereas colonization of bare ground gives the opposite trend.
108 washing the glass surface with detergent and bare hands, was also observed, with measured particle pr
109 e retracted and positioned very close to the bare, hard substrate for characterization with tradition
110                                     Although bare hBN can exhibit negative refraction, the transmissi
111 pression of Huh-7.5 cells, compared with the bare ICC scaffold.
112 t and increases the time and area of exposed bare ice.
113  surface melt directly, thereby accelerating bare-ice exposure and enhancing meltwater runoff.
114 doping dependence of the magnetic moments mu bare in electron- and hole-doped BaFe2As2.
115 easing temperature substantially enhances mu bare in the hole-doped region, which is naturally explai
116  found, which is much larger than that for a bare IrMn layer.
117 particles undergoing faster dissolution than bare iron oxide particles.
118                       At low temperature, mu bare is nearly constant in hole-doped samples, whereas i
119 rochemical measurements by 82% compared with bare ITO and was used to detect Staphylococcus aureus 16
120                             Soil microbes in bare land soils also faced soil organic matter with the
121  microbial respiration to biomass C ratio in bare land soils confirmed environmentally induced stress
122 crobes colonizing bamboo plantations than in bare land soils.
123 m three thorny bamboo plantations and nearby bare lands.
124 oximately 150 h at 3 mAcm(-2)) compared with bare Li metal electrode.
125                       The viscous regime for bare liposomes corresponds to a leakout of the internal
126                                              Bare Lix Z crystals were first produced by milling eleme
127 , produced a distinguishable response to the bare LSPR biosensor without functionalization, suggestin
128  the presence of the actin shell compared to bare membranes.
129 itch, one of the main events responsible for bare metal in-stent restenosis after percutaneous corona
130 ared with PES (10.95 mm(2) [9.64-12.46]) and bare metal stent (13.83 mm(2) [11.53-17.03]; P<0.001).
131 compared with PES (54.16% [42.60-61.97]) and bare metal stent (74.52% [47.23-100.00]; P<0.001).
132 ith artery wall healing in comparison with a bare metal stent (BMS).
133 enoses, but optimum treatment strategies for bare metal stent and drug-eluting stent in-stent resteno
134 (n=12) and PES (n=12) was compared against a bare metal stent control (n=12; Innova, Boston Scientifi
135                                The MGuard, a bare metal stent covered with a polymer mesh, was design
136 imus A9 Drug Coated Stent Versus the Gazelle Bare Metal Stent in Patients With High Risk of Bleeding
137                     Clinical presentation of bare metal stent in-stent restenosis (ISR) in patients u
138 tment within 6 months compared with 64.2% of bare metal stent patients.
139                 In contrast, MACE rates with bare metal stent placement increased from 4.3% in 2005 t
140  0% to 13% after angioplasty, 0% to 5% after bare metal stent placement, and <1% after covered stent
141 wed DES placement, and 5608 (33.7%) followed bare metal stent placement.
142                                 Treatment of bare metal stent restenosis using PEB led to significant
143 mus-eluting stents (EES) in the treatment of bare metal stent restenosis.
144 ent-graft implantation and/or placement of a bare metal stent, complications, and follow-up images we
145 osition) in the FP-PES compared with PES and bare metal stent.
146  transluminal angioplasty (PTA) and bail-out bare metal stenting (BMS) is hampered by restenosis.
147 atment for CoA, including angioplasty alone, bare metal stenting, and primary covered stent therapy.
148  (PCI) with drug-eluting stents (DES) versus bare metal stents (BMS) has not been studied in the kidn
149 nary drug-eluting stents (DES) compared with bare metal stents (BMS), the relative risk of stent thro
150 osis (ST) have included mostly patients with bare metal stents and early-generation drug-eluting sten
151 eous revascularization with drug-eluting and bare metal stents associates with a high risk of in-sten
152                                         Only bare metal stents showed complete re-endothelialization
153 covered stents, and 11.2% balloon expandable bare metal stents) were placed in 692 renal arteries, 15
154 rachytherapy, -23.4% (-36.2 to -10.8) versus bare metal stents, -24.2% (-32.2 to -16.4) versus balloo
155 Guard was consistent with that expected from bare metal stents.
156 metallic biolimus-eluting stents and control bare metal stents.
157 rosclerosis was a common dominant finding in bare metal stents.
158 eluting compared with everolimus-eluting and bare metal stents.
159 nt compared with both everolimus-eluting and bare metal stents.
160 Stent) and RIBS V (Restenosis Intra-Stent of Bare Metal Stents: Paclitaxel-Eluting Balloon vs Everoli
161 eomics in the ECM of coronary arteries after bare-metal and drug-eluting stent implantation, most not
162                                              Bare-metal and drug-eluting stents were implanted in pig
163 ing to NCS is <1 year, both in patients with bare-metal and drug-eluting stents.
164 egulation and function after implantation of bare-metal and drug-eluting stents.
165 despite advances in stent technology in both bare-metal and drug-eluting stents.
166  drug-eluting stent showed similar safety as bare-metal stent >12 months and between 6 and 12 months
167  of AF were more likely to be treated with a bare-metal stent (27% vs. 18%).
168 t therapy is safer and more effective than a bare-metal stent (BMS) for patients with high risk of bl
169                           In comparison with bare-metal stent implanted >12 months before surgery, ol
170 ed the drug-coated stent with a very similar bare-metal stent in patients with a high risk of bleedin
171 level data to compare the efficacy of EES in bare-metal stent ISR and DES-ISR.
172 were reported between drug-eluting stent and bare-metal stent ISR groups in terms of device-oriented
173  treatment of complex drug-eluting stent and bare-metal stent ISR lesions might be associated with ac
174  Results of 94 patients treated with EES for bare-metal stent ISR were compared with those of 155 pat
175  more challenging than that of patients with bare-metal stent ISR.
176  in patients with DES-ISR than in those with bare-metal stent ISR.
177 se mortality included balloon angioplasty or bare-metal stent placement compared with drug-eluting st
178 ee umirolimus-coated stent was superior to a bare-metal stent with respect to the primary safety and
179 expanding covered stent grafts compared with bare-metal stents (10.6% versus 3.4%; P=0.02).
180 ant difference in ST between drug-coated and bare-metal stents (4.4% versus 3.4%; P=0.55), but the ra
181 s with VLST and compare the findings between bare-metal stents (BMS) and drug-eluting stents (DES).
182 on drug-eluting stents (n-DES) compared with bare-metal stents (BMS) and old-generation drug-eluting
183 e-polymer (DP)-drug-eluting stents (DES) and bare-metal stents (BMS) by means of a network meta-analy
184 DES) platforms, previous generation DES, and bare-metal stents (BMS) for percutaneous coronary interv
185                          The introduction of bare-metal stents (BMS) has represented a major advancem
186 ompared everolimus-eluting stents (EES) with bare-metal stents (BMS) in an all-comer population with
187 olimus-eluting stents (EES) in patients with bare-metal stents (BMS) in-stent restenosis (ISR).
188 ous coronary intervention (PCI) using either bare-metal stents (BMS) or drug-eluting stents (DES).
189 th a unique drug fast-release profile versus bare-metal stents (BMS) under similar durations of dual-
190 duce repeat revascularizations compared with bare-metal stents (BMS), but their effects on death and
191 ed with higher rate of late ST compared with bare-metal stents (BMS), especially in patients with ST-
192 ry intervention to SVG in patients receiving bare-metal stents (BMS), first-generation DES, and newer
193 uting stents (DP-DES) and as safe >1 year as bare-metal stents (BMS).
194 erent types of drug-eluting stents (DES) and bare-metal stents (BMS); however, most prior trials in t
195 ting stents and 19.8% in the group receiving bare-metal stents (hazard ratio, 0.76; 95% CI, 0.69 to 0
196 ting stents and 17.1% in the group receiving bare-metal stents (hazard ratio, 0.98; 95% confidence in
197 us coronary intervention (PCI) often receive bare-metal stents followed by 1 month of dual antiplatel
198 ving drug-eluting stents and those receiving bare-metal stents in the composite outcome of death from
199 ing stents may have clinical advantages over bare-metal stents in the extremely proliferative environ
200 rary drug-eluting stents versus contemporary bare-metal stents on rates of death, myocardial infarcti
201 treated with drug-eluting stents, 1,687 with bare-metal stents), 30.7% presented with MI.
202 raphy, fractional flow reserve measurements, bare-metal stents, postprocedural medications, and radia
203 f either contemporary drug-eluting stents or bare-metal stents.
204 ed in drug-eluting stents in comparison with bare-metal stents.
205 atients without DM or in any group receiving bare-metal stents.
206 ent group and in 154 patients (12.9%) in the bare-metal-stent group (risk difference, -3.6 percentage
207 tent group and in 113 patients (9.8%) in the bare-metal-stent group (risk difference, -4.8 percentage
208 results that rear-located surface plasmon on bare metallic nanoparticles is preferred, the core-shell
209 zia was not assessed, these data represent a bare-minimum estimate of rectal bleeding in need of eval
210 e of the morphological reconstruction of the bare Mo-terminated edge.
211 ur results are compared to those obtained on bare nanoparticles upon above-gap excitation.
212                        Results Compared with bare nanoparticles, all experimental groups showed signi
213 ulate the interaction with aptamer-coated or bare nanoparticles.
214 ed and tested by acquiring I-V curves of the bare nanowire-based FETs.
215 llary, transfer the amplified fragments to a bare narrow capillary, and measure their lengths online
216 lary, and measure their lengths online using bare narrow capillary-hydrodynamic chromatography (BaNC-
217 her O(ad) or PtO-like surface oxide phase on bare non-CO poisoned Pt regions with PtO2 as majority sp
218  facile activation on such sites compared to bare NPs, as indicated by DFT-derived potential energy s
219 ction with tissues and cells relative to the bare NPs.
220 t of a new device based on the use of UV-vis bare optical fibers in a long optical path length config
221 e Zr sublattice (the discrete state) and the bare optical phonon mode of the Ti sublattice (the conti
222 ic scheme reveals such resonance between the bare optical phonon mode of the Zr sublattice (the discr
223 ortional to the area of the electrode either bare or covered by neutral and/or nominally charged spec
224 cacy of the Argus II System in patients with bare or no light perception resulting from end-stage RP.
225 ) and fluorene (C13H10) molecules under fast bare oxygen ion impact.
226 fields that form upon photoexcitation within bare p-GaInP2, p-GaInP2/platinum (Pt), and p-GaInP2/amor
227 ntials more positive than 0.0 V vs RHE while bare p-Si photocathodes do not.
228 lectrical properties, comparable to those of bare P3HT based EGOFET confirming reliable biosensing wi
229 or the X-linked, male lethal mouse mutations bare patches and striated, as well as most cases of huma
230 associated with tree cover and did not avoid bare patches as strongly.
231 consistently selected tree cover and avoided bare patches.
232 atelet adhesion (85.6% decrease) compared to bare PCL surface.
233 the highest postthaw emissions occurred from bare peat surfaces, a typical landform in permafrost pea
234 roscopy (EIS) and compared with those of the bare PGE.
235  ink coated pin as working electrode and two bare pins as counter and reference electrodes.
236 e configuration device is designed using two bare pins as reference and counter electrodes, and a car
237                     In a comparison with the bare planar electrode, the modified electrode achieved g
238 sis of the clotting properties of bare SNPs, bare polyP, and polyP-functionalized SNPs in plasma demo
239 , respectively, in comparison with that of a bare printed graphene or reduced graphene oxide electrod
240  solvent density but not oscillations of the bare protein, thereby reconciling recent TR-SWAXS experi
241 nching of photoluminescence in comparison to bare PSi.
242  an increased electron transfer, compared to bare Pt and Au electrodes.
243 haracterize the oxygen reduction activity of bare Pt clusters (Pt30 approximately 1 nm diameter), thu
244 at the truncated octahedron shape adopted by bare Pt nanoparticles undergoes a reversible, facet sele
245 which is the prevailing back reaction on the bare Pt/SrTiO3 photocatalyst.
246 d by GO, including the control line, made of bare QDs, reporting that the assay occurred successfully
247 hree independent methods: artifact corrected bare-quartz filters, thermodenuder (TD) measurements, an
248             Due to the resulting presence of bare reactant ions (e.g., H3O(+)) and the kinetic contro
249 ubsequent detachment of the mussels returned bare rock again.
250                                              Bare rock was colonized by barnacles and crustose algae,
251 , which can initiate from the BP surface for bare samples, or edges for samples with thin dielectric
252 ission intensity enhancement relative to the bare semiconducting quantum wells.
253 trate enhanced transmission when compared to bare semiconductor surfaces.
254 highly uniform, extremely stable compared to bare SeNPs.
255 /rGO nano-hybrid film was immobilized onto a bare sensor chip and exhibited remarkable sensitivity an
256 o dispense an enzymatic pellet on top of the bare sensor strip affixed to the case, and then introduc
257 uilt smartphone case that houses a permanent bare sensor strip, a stylus that is loaded with enzyme-c
258 pellet is then discarded to regain the fresh bare sensor surface.
259 nhancement in photoluminescence, compared to bare Si and SiO2 substrates.
260 ent up to 86 times compared to that grown on bare Si, and the enhancement can be modified in a contro
261                                 Here, mixing bare silica particles with Janus particles that are self
262 with titania film instead of -7+/-3 kHz with bare silica surface.
263 y nineteen orders of magnitude compared to a bare silver screen.
264 understanding of RAD51 filament formation on bare single-stranded DNA that will serve as a basis to e
265       Analysis of the clotting properties of bare SNPs, bare polyP, and polyP-functionalized SNPs in
266  The partitioning of evapotranspiration into bare soil evaporation and plant transpiration remains a
267                Pesticide volatilization from bare soil exhibits usually a diurnal cycle with a potent
268 g mosses on multifunctionality compared with bare soil increased with increasing aridity.
269 vegetation parameters, such as the amount of bare soil, vegetation biomass production and vegetation
270 y small-scale hexagonal ordering of circular bare-soil gaps that persists uniformly in the landscape
271  and snow-covered soils were lower than over bare soils, and chamber measurements showed higher emiss
272 erbivory and a >150% increase in unvegetated bare space compared to plots with predators.
273 ic peak) over that achievable at unmodified (bare) SPEs.
274  using bi-functional surfaces, compared to a bare stainless steel surface.
275 dified steels are as mechanically durable as bare steel and highly tolerant to compressive and tensil
276 er 2010, the covered (experimental group) or bare stent (control group) was used in 131 and 127 patie
277 luency covered stent has advantages over the bare stent in terms of reducing the restenosis, recurren
278 e efficacy of 8 mm Fluency covered stent and bare stent in transjugular intrahepatic portosystemic sh
279 trate is significant larger than that of the bare substrate, and it increases with increasing graphen
280 h physical stress, such as recolonization of bare substrate.
281 tracted from the reflectance contrast to the bare substrate.
282  the 2D electron gas (2DEG)stabilized at the bare surface of SrTiO3 (001) is investigated.
283 es the work function with respect to that of bare surface, OH always decreases it, whereas F exhibits
284 a comparative study of STO(001) and STO(110) bare surfaces, and observe similar replica bands separat
285 d a high-symmetry geometric structure of the bare Ti8 O12 cluster composed of 8 Ti atoms forming a cu
286 nd the origin of the particular stability of bare Ti8 O12 cluster: unique chemical bonding where eigh
287                                          The bare Ti8 O12 is thus an unusual molecule stabilized by d
288 ysteresis and work of adhesion compared to a bare tip.
289 l adhesion, and indeed such a model fits the bare-tip/cell interaction, in agreement with earlier wor
290                      Rather than existing as bare tracks, microtubules are bound by numerous microtub
291        This is significantly better than the bare unmodified samples, which usually show rapid Coulom
292  tree density and negatively associated with bare (unvegetated) patches in all plots and seasons.
293 y for water oxidation in pH 3 Na2SO4 (56% on bare WO3, 79% on 1-WO3).
294 in amounts are actively balanced between the bare zone and stereocilia tips, suggesting that early pl
295 lanar asymmetry of protein enrichment at the bare zone confers adjacent stereocilia their tallest ide
296 ai3 appeared at E12.5, then polarized to the bare zone of individual hair cell at E13.5.
297 dge of the forming bundle is defined by the 'bare zone', a microvilli-free sub-region of apical membr
298 ry tip of stereocilia that directly abut the bare zone.
299 ttice are longer and asymmetrical around the bare zone.
300 ease in length, and decrease in width of the bare zones of RLC-unphosphorylated filaments.

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