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1 mbranes and displays weak fluorescence until photoactivated.
2 e-red light, a condition in which OCP is not photoactivated.
3 revious work has demonstrated the ability of photoactivated 1 to platinate DNA, this suggests that th
4 sed the degree of irreversible inhibition by photoactivated 3-azioctanol.
5 eased the irreversible inhibition induced by photoactivated 3-azioctanol.
6 3-azioctanol and the irreversible effects of photoactivated 3-azioctanol.
7 c framework for formation of adducts between photoactivated 3-hydroxyphenyl azide and RNA.
8  originating from the covalent attachment of photoactivated 4 was identified.
9 of G(1), S, and G(2) cells were treated with photoactivated 4'-hydroxymethyl-4,5',8-trimethylpsoralen
10 istance of control inoculum-treated PBMCs to photoactivated 8-methoxypsoralen- and hypericin-induced
11 th the amount of PS1 that is modifiable by a photoactivated active site-directed gamma-secretase inhi
12 lved these critical concerns by expressing a photoactivated adenylate cyclase that allows light-sensi
13  particular versatility, naturally occurring photoactivated adenylate cyclases promote the synthesis
14 resent a transgenic mouse model expressing a photoactivated adenylyl cyclase (bPAC) in sperm.
15 identified the blaC gene encoding a putative photoactivated adenylyl cyclase in the Beggiatoa sp. PS
16                  Photodynamic therapy uses a photoactivating agent to selectively treat choroidal neo
17                                        Other photoactivating agents are being evaluated.
18 transduction inactivation through binding to photoactivated and phosphorylated rhodopsin (RP).
19 cI molecules in live cells by stochastically photoactivating and observing fluorescent proteins indiv
20  discrete protein population within axons is photoactivated, and then the activated population is tra
21                We found the excitation light photoactivates as well as deactivates Dronpa single mole
22        Indeed, when caged Tbeta4 was locally photoactivated at the wings of locomoting keratocytes, s
23 oactivatable GFP)-tagged neurofilaments from photoactivated axonal segments in cultured dorsal root g
24 eled with a fluorescent probe or linked to a photoactivated bead, respectively.
25 med the appropriate disulfide bond, could be photoactivated but with reduced sensitivity, and underwe
26                                  When OCP is photoactivated by strong blue-green light, it is able to
27 e dark on the time scale of hours but can be photoactivated by UV light to regenerate YFP(-) within s
28                         Fluorescent steroids photoactivated by visible light may be useful for modula
29                      The combination of this photoactivated catalyst with the fidelity and functional
30 t Drosophila ligands; alternatively, Rac was photoactivated centrally within a single cell.
31 mbrane photosynthetic protein, in its robust photoactivated charge separation with near unity quantum
32 o damage the 5' guanine of 5'-GG-3' sites by photoactivated charge transport through DNA.
33 resistant to apoptosis induced by the potent photoactivated chemotherapeutic agents 8-methoxypsoralen
34 purine or pyrimidine 12mer are targeted with photoactivated cleavage by the metal complex Rh(phen)2ph
35 ontext, 1 is a very promising candidate as a photoactivated CO releasing moiety (photoCORM) with pote
36 e data could be useful for future studies of photoactivated Co-bleomycin and Co-bleomycin analogues i
37  driving forces in a suspension of synthetic photoactivated colloidal particles.
38 dicating that the contact is enhanced in the photoactivated complex.
39 that a Gln substitution at Glu-134 induces a photoactivated conformation around helices C and G even
40         PIF1 interacts specifically with the photoactivated conformer of phytochromes A and B, sugges
41                                          The photoactivated conformer of the photoreceptor Pfr has be
42 njugation of a CO-releasing molecule (here a photoactivated CORM) to the 5'-OH ribose group of vitami
43 ted by reacting mono-cysteine mutants with a photoactivated cross-linker.
44 biotin on the carboxy terminus, as well as a photoactivated cross-linking group (benzophenone), also
45 o the heteroduplex DNA, we have utilized the photoactivated cross-linking moiety 5-iododeoxyuridine (
46 -intercalating ruthenium complex to create a photoactivated cross-linking reagent.
47                                              Photoactivated cross-linking using the cysteine reagent
48                       Here we show that both photoactivated cryptochromes repress COP1 activity throu
49           As such they approach ideality for photoactivated depot materials.
50                  We previously described the photoactivated depot or PAD approach that allows for the
51  In this work, we create materials that form photoactivated depots of insulin without the need for po
52 rystal structures of both ground state and a photoactivated deprotonated intermediate of bovine rhodo
53 l transition from the crystal structure of a photoactivated deprotonated state of rhodopsin to the lo
54                                  Moreover, a photoactivated derivative of 25-HC does not cross-link t
55 act cells was demonstrated by showing that a photoactivated derivative of cholesterol cross-links to
56  the C-terminal transmembrane domain using a photoactivated derivative of cholesterol.
57 se metallointercalator-peptide conjugates by photoactivated DNA cleavage assays with the rhodium inte
58 y steady-state fluorescence measurements and photoactivated DNA cleavage experiments, reproduce the b
59                                    The first photoactivated doped quantum dot vector for metal-ion re
60 oresponsive materials, molecular motors, and photoactivated drugs.
61 lectivity of the probe and revealed that the photoactivated dye does not diffuse away from the origin
62 lso been shown that Verteporfin can have non-photoactivated effects such as interference with the YAP
63 nanoscale silver oxide (Ag2O) reveals strong photoactivated emission for excitation wavelengths short
64 sibly switch between stable dark-adapted and photoactivated end states.
65 mes onto dynein by combining live imaging of photoactivated endosomes and fluorescent dynein with mat
66 lity of proteins as targets of thermally and photoactivated enediynes has been confirmed at the molec
67 e is the first phytochrome with a non-kinase photoactivated enzymatic activity.
68                                          The photoactivated evolution of a series of enantiomerically
69 mer in the red light-absorbing state and the photoactivated far-red light-absorbing state revealed a
70 alogous experimental studies for the case of photoactivated Fe precatalyst 2 suggested that the activ
71  single-molecule fluorescence microscopy and photoactivated fluorescence microscopy.
72 ntitative measurements of the dissipation of photoactivated fluorescence show that, compared with MTs
73 l microscopy of fluorescent microspheres and photoactivated fluorescent dyes were used with well-diff
74                        Both parallel MTs and photoactivated fluorescent marks on perpendicular MTs mo
75        The obtained results suggest that the photoactivated form of OCP represents a molten globule-l
76 tion factor, interacts specifically with the photoactivated form of phytochrome B (phyB).
77                                        Thus, photoactivated gene expression is a versatile tool for s
78 sophila embryos at gastrulation, we used the photoactivated gene expression system to mark small numb
79 ain progenitors, we created a fate map using photoactivated gene expression to mark cells originating
80                                              Photoactivated gene expression was also used either to k
81    By measuring changes in fluorescence of a photoactivated GFP protein targeted to mitochondria, we
82 eveloped an imaging method that combines the photoactivated green fluorescent protein (PA-GFP) and fl
83 re-activity relations, a ligand in which the photoactivated group was extended from the 3-position of
84 e mutant, designated BlgC, was found to have photoactivated guanylyl cyclase in vitro.
85 exchange and with nearly all of the reported photoactivated H/D exchange studies, the UV-induced H/D
86                                          UVA-photoactivated hypericin (0.5-2.0 J per cm2) could also
87 poptosis is, in part, one mechanism by which photoactivated hypericin inhibits malignant T cell proli
88  a caged form of thymosin beta4 (Tbeta4) was photoactivated in a defined local region of locomoting f
89                               PAiRFPs can be photoactivated in a spatially selective manner in mouse
90              ChR2-transduced C1 neurons were photoactivated in conscious rats while EEG, neck muscle
91  alpha(2)-[P(2)W(17)O(61)](10-), that can be photoactivated in the presence of 2-propanol to transfer
92 ch to create therapeutic vectors that can be photoactivated in vivo with high spatial and temporal co
93 gh single-channel conductance but reversibly photoactivates in blue light.
94  cross-link supports the assignment that the photoactivated intermediate is the ketenimine or a keten
95 cross-strand cross-link, indicating that the photoactivated intermediate reacts broadly with function
96 e intermediates were very long-lived (>12 h, photoactivated lapachenole), others existed for millisec
97                             Here, we combine photoactivated light microscopy with quantitative statis
98 ery of the photosensitizers, as well as, the photoactivating light and to establish dosimetric correl
99 sensitizer drugs are minimally toxic and the photoactivating light itself is non-ionizing.
100 sis of various stereopolymers by combining a photoactivated living polymerization, named photoinduced
101 d emission depletion (g-STED) microscopy and photoactivated localisation microscopy (PALM).
102   Here, we describe an approach to cryogenic photoactivated localization microscopy (cPALM) that perm
103           Here, we introduce interferometric photoactivated localization microscopy (iPALM), the comb
104 h two- and three-dimensional applications of photoactivated localization microscopy (PALM and iPALM,
105                                     By using photoactivated localization microscopy (PALM) and an exp
106 ase p56lck (Lck) using single and dual-color photoactivated localization microscopy (PALM) and direct
107 uperresolution microscopy techniques such as Photoactivated Localization Microscopy (PALM) and Stocha
108 se localization of single molecules, such as photoactivated localization microscopy (PALM) and stocha
109 per-resolution microscopy techniques such as photoactivated localization microscopy (PALM) and stocha
110           Here we expand the scope of SRM to photoactivated localization microscopy (PALM) imaging of
111                                      We used photoactivated localization microscopy (PALM) in rat hip
112  of molecular positions mapped via live-cell Photoactivated Localization Microscopy (PALM) is a power
113                                              Photoactivated localization microscopy (PALM) is a power
114                                              Photoactivated localization microscopy (PALM) is a power
115 l feature of most of the techniques based on photoactivated localization microscopy (PALM) or stochas
116  localization microscopy (SMLM)-for example, photoactivated localization microscopy (PALM) or stochas
117                                              Photoactivated localization microscopy (PALM) reveals th
118 lecule-based super-resolution imaging method Photoactivated Localization Microscopy (PALM) reveals th
119     We created a high-throughput modality of photoactivated localization microscopy (PALM) that enabl
120                         We used quantitative photoactivated localization microscopy (PALM) to analyze
121         Here, we report the use of two-color photoactivated localization microscopy (PALM) to determi
122                                  We combined photoactivated localization microscopy (PALM) with live-
123 photoactivation microscopy, super-resolution photoactivated localization microscopy (PALM), and singl
124     In the present work, we demonstrate that photoactivated localization microscopy (PALM), in combin
125 ization of individual fluorescent molecules [photoactivated localization microscopy (PALM), stochasti
126  modeling, and single-molecule counting with photoactivated localization microscopy (PALM).
127 lution microscopy in whole fixed cells using photoactivated localization microscopy (PALM).
128 ated emission depletion (STED) microscopy or photoactivated localization microscopy (PALM).
129 lution techniques such as one- and two-color photoactivated localization microscopy (PALM).
130 ate live-cell super-resolution imaging using photoactivated localization microscopy (PALM).
131 rons at approximately 25 nm resolution using photoactivated localization microscopy (PALM).
132        The approach, called pair correlation photoactivated localization microscopy (PC-PALM), uses a
133 s using single particle tracking combined to photoactivated localization microscopy (sptPALM).
134 stochastic optical reconstruction microscopy/photoactivated localization microscopy (STORM/PALM) to d
135 Here, by combining super-resolution imaging (photoactivated localization microscopy [PALM]) and singl
136               Here we present a multicolour, photoactivated localization microscopy approach for imag
137  distribution of LacI in live bacteria using photoactivated localization microscopy combined with sin
138 ion of scaffold proteins was determined from photoactivated localization microscopy experiments, and
139 bimolecular fluorescence complementation and photoactivated localization microscopy for super-resolut
140 paired rsKame with PAmCherry1 in a two-color photoactivated localization microscopy imaging method to
141 stochastic optical reconstruction microscopy/photoactivated localization microscopy imaging, and fluo
142 pecific protein degradation and quantitative photoactivated localization microscopy in strains with a
143 ngle-molecule localization microscopy (e.g., photoactivated localization microscopy or stochastic opt
144 mes less than mEos2, making Dendra2 a better photoactivated localization microscopy tag than mEos2 fo
145                          Furthermore, we use photoactivated localization microscopy to determine the
146                                 Here, we use photoactivated localization microscopy to localize indiv
147 lso provides an example of applying tracking photoactivated localization microscopy to studies of low
148                 We used single and two-color photoactivated localization microscopy to study complexe
149 ation microscopy (iPALM), the combination of photoactivated localization microscopy with single-photo
150 ion fluorescence microscopy (interferometric photoactivated localization microscopy) to map nanoscale
151     Here we describe a correlated cryo-PALM (photoactivated localization microscopy)-CET method for l
152 athway, in T cell membranes using high-speed photoactivated localization microscopy, dual-color fluor
153 sion depletion, structured illumination, and photoactivated localization microscopy, have enabled imp
154                           Using fluorescence photoactivated localization microscopy, we detected full
155                                        Using photoactivated localization microscopy, we measured move
156                                        Using photoactivated localization microscopy, we reveal that t
157                  We used this method--termed photoactivated localization microscopy--to image specifi
158 within a diffraction-limited area when using photoactivated localization microscopy.
159 timulated emission depletion microscopy, and photoactivated localization microscopy.
160  photoactivation localization microscopy and photoactivated localization microscopy.
161 opy, structured illumination microscopy, and photoactivated localization microscopy.
162 fluorescent protein and a popular marker for photoactivated localization microscopy.
163 ver, requires markers that can be reversibly photoactivated many times.
164 stribution of single BfpB molecules fused to photoactivated mCherry.
165         Cultured fibroblasts were exposed to photoactivated methylene blue under conditions that woul
166                                              Photoactivated methylene blue was used to damage purifie
167             Herein, we show that to preserve photoactivated molecular deformation on the macroscopic
168                              One EPI-nitrene photoactivated molecule was incorporated in each subunit
169 g intracellular protein dynamics by tracking photoactivated molecules that are the only visible GFPs
170 ions of a central auditory optoprosthesis by photoactivating mouse auditory midbrain neurons that eit
171                              This involves a photoactivated multicomponent reaction, performed both i
172                                            A photoactivated neutral organic super electron donor clea
173                                     The four photoactivated nitrene probes modified AChBP with up to
174 cation, engineering, and characterization of photoactivated nucleotidyl cyclases that can be used to
175                                     A single photoactivated OCP bound to the core of the PBS affords
176 te of photoactivity and the stability of the photoactivated OCP, suggesting that the activated OCP ha
177 e report a negative tone photoresist using a photoactivated olefin metathesis catalyst, which can be
178                             For stimuli that photoactivated one rhodopsin per Galphat the rod OS swel
179 s require fluorophores whose emission can be photoactivated or photoswitched.
180  intermediates, and the less well understood photoactivated oxidative redding phenomenon.
181                                          The photoactivated PAmCherry1 exhibits a non-coplanar anioni
182                                              Photoactivated pattern formation in functional polymers
183                     Here we demonstrate that photoactivated pattern formation on azobenzene-containin
184 ye-terminator sequencing fragments using the photoactivated PC chip and slab gel electrophoresis prod
185 nds several phototropins specifically in the photoactivated Pfr state.
186 ersion between a dark-adapted Pr state and a photoactivated Pfr state.
187 s evidence indicates that the binding of the photoactivated photoreceptor molecule to PIF3 induces ra
188 al mechanism of primary signal transfer from photoactivated photoreceptor to binding partner, and tha
189 ical and genetic evidence indicates that the photoactivated phy molecule acts within 60 s to induce t
190 lves direct, intranuclear interaction of the photoactivated phy molecule with PIF3, a basic helix-loo
191 adation induced by direct interaction of the photoactivated phy molecule with the transcription facto
192 llowing light-induced nuclear translocation, photoactivated phy molecules bind to and induce rapid ph
193 ivity is reversed upon exposure to light, by photoactivated phy molecules that induce degradation of
194 PPKs are directly involved in catalysing the photoactivated-phy-induced phosphorylation of PIF3 in vi
195 toactivated phyB nor artificial retention of photoactivated phyB in the cytosol provides detectable b
196 ng that the consequences of interaction with photoactivated phyB may differ among PIFs.
197 ther artificial nuclear translocation of non-photoactivated phyB nor artificial retention of photoact
198 hese data indicate that signal transfer from photoactivated phyB to its primary signaling partner(s)
199 gest the absence of a cytosolic pathway from photoactivated phyB to light-responsive genes.
200 ss, whereas in the light, the interaction of photoactivated phyB with PIF5 causes degradation of the
201 of the effects of PIF feedback modulation of photoactivated-phyB abundance.
202 scillates as a balance between synthesis and photoactivated-phytochrome-imposed degradation, with max
203                                    Moreover, photoactivated phytochromes bind to and induce rapid deg
204 vel phytochrome signaling mechanism in which photoactivated phytochromes directly interact with HMR a
205 icans grew on both media and produced a pink photoactivated pigment on m-DTDP agar.
206    In this manuscript, we discuss the use of photoactivated polycarbonate (PC) for purification of dy
207                      We discuss the use of a photoactivated polycarbonate (PPC) microfluidic chip for
208              Perylenequinones are a class of photoactivated polyketide mycotoxins produced by fungal
209 orial stimulation by low-dose artemisinin to photoactivate PPIX to produce cytotoxic reactive oxygen.
210                                              Photoactivated probes have gained interest as experiment
211            Most bacteriophytochromes work as photoactivated protein kinases.
212                           PALM/STORM rely on photoactivated proteins or photoswitching dyes, respecti
213                 The method is applied to the photoactivated proton pump, bacteriorhodopsin, using con
214                         We conclude that the photoactivated PYP domain in Ppr accelerates recovery of
215   In cultured mammalian cells, the effect of photoactivated pyr-TFO-directed DNA damage was to induce
216                     Here we demonstrate that photoactivated pyrene-conjugated TFOs (pyr-TFOs) induce
217 be spectroscopy, and in elucidating the main photoactivated reactive paths.
218                                          The photoactivated receptor in DDM is dominated by one confo
219  nanodiscs, the ensemble of substates in the photoactivated receptor spontaneously decays to that cha
220 rmation of NpHtrII for signal relay from the photoactivated receptor to the kinase-binding region of
221 ins upon transition from the basic orange to photoactivated red OCP form.
222                In addition to transport, the photoactivated region frequently broadens, indicating th
223                          A broadening of the photoactivated region occurred as MTs moved bidirectiona
224             Neurofilaments departed from the photoactivated regions at rapid velocities, but the over
225                         Second, direct focal photoactivated release of the microtubule-stabilizing dr
226                                              Photoactivated reversible addition fragmentation chain t
227                    Binding of purified Gt to photoactivated Rho (Rho*) in n-dodecyl beta-D-maltoside
228 onstrated the modularity of this approach by photoactivating RhoA with high spatiotemporal resolution
229                                              Photoactivated rhodopsin (R) catalyzes nucleotide exchan
230 robable protein-protein interactions between photoactivated rhodopsin (R*) and experimentally determi
231                                 The decay of photoactivated rhodopsin (R*) and inactivation of transd
232  reliable 3D model for the complex formed by photoactivated rhodopsin (R*) and its G-protein, transdu
233 nd utilized a model of the interface between photoactivated rhodopsin (R*) and transducin (Gt), its G
234 e of the G(t)alpha(340-350) peptide bound to photoactivated rhodopsin (R*) geometrically suggests a c
235 he interaction between transducin (G(t)) and photoactivated rhodopsin (R*), 14 analog peptides were d
236 ) as efficient in activating transduction as photoactivated rhodopsin (Rh*) in WT mice.
237 ated by phosphorylation of the C-terminus of photoactivated rhodopsin (Rh*).
238                   Transitory binding between photoactivated rhodopsin (Rho* or Meta II) and the G pro
239 t subunit dissociation caused by exposure to photoactivated rhodopsin (Rho*).
240  the rhabdomere possibly by interacting with photoactivated rhodopsin 1 (Rh1*).
241 nal, is released in the rod outer segment by photoactivated rhodopsin after light excitation.
242 eased in rod photoreceptor outer segments by photoactivated rhodopsin and is eliminated through reduc
243 ouse rods, but the complex formation between photoactivated rhodopsin and transducin is severely comp
244                    Complex formation between photoactivated rhodopsin and transducin was measured by
245 etinal rod cells involves phosphorylation of photoactivated rhodopsin by the enzyme rhodopsin kinase
246 nsducin, Gtalpha 340-350, within cavities of photoactivated rhodopsin formed by different energetical
247 er/Thr kinase responsible for termination of photoactivated rhodopsin in rod photoreceptor cells.
248                               The ability of photoactivated rhodopsin to achieve the enzymatically ac
249        The release of all-trans retinal from photoactivated rhodopsin was measured in purified rod ou
250 ions is superstoichiometric to the amount of photoactivated rhodopsin, exceeding it by at least 30-fo
251  resulting spin-labeled Galphabetagamma with photoactivated rhodopsin, followed by rhodopsin-catalyze
252                          GRK1 phosphorylates photoactivated rhodopsin, initiating steps in its deacti
253 inase") is necessary for the inactivation of photoactivated rhodopsin, the light receptor of the G-pr
254 dehyde all-trans-retinal that is released by photoactivated rhodopsin, to all-trans-retinol (vitamin
255  metarhodopsin II (MII), the conformation of photoactivated rhodopsin, which binds and activates tran
256 is visual arrestin responsible for quenching photoactivated rhodopsin, which moves into photoreceptor
257  state rhodopsin, and hydrolysis of SB using photoactivated rhodopsin.
258 ively compete with transducin for binding to photoactivated rhodopsin.
259 e retinal rod and cone photoreceptors, light photoactivates rhodopsin or cone visual pigments by conv
260                             Corneal CXL with photoactivated riboflavin did not shorten the time to co
261 ter internalization, the photosensitizer was photoactivated, significantly increasing the cytotoxicit
262                                      We used photoactivated single-molecule tracking to discriminate
263 nd state (Pr) and a far-red-light-absorbing, photoactivated state (Pfr).
264 nerate a three-dimensional (3D) model of the photoactivated state (R*) of bovine rhodopsin (Rh).
265 ound state Pr, and a far-red light-absorbing photoactivated state Pfr.
266 bing dark state Pb and green light-absorbing photoactivated state Pg, combined with paired crystallog
267                                       In the photoactivated state, the Schiff base linking the chromo
268 enesis produced an enzyme with a more stable photoactivated state.
269  distance distributions in both the dark and photoactivated states of rhodopsin.
270  distance distributions in both the dark and photoactivated states of rhodopsin.
271 ts directly demonstrate the coupling of SRII photoactivated states to histidine kinase activity, prev
272 rotonated states that represent the dark and photoactivated states, respectively.
273  (PA-GFP) have been solved in the native and photoactivated states, which under 488 nm illumination a
274                                            A photoactivated-strengthening polymer network is reported
275 y between the active opsin structure and the photoactivated structures in crystallo near the retinal
276 orescence microscopy, and PAGFP was sparsely photoactivated such that polarized fluorescence identifi
277 bunit and used as sites of attachment of the photoactivated sulfhydryl reagent 4-(N-maleimido)benzoph
278    The gDNA was selectively captured on this photoactivated surface in an immobilization buffer, whic
279 ur results reveal that LH2 complexes undergo photoactivated switching to a quenched state, likely by
280 ormal actin polymerization kinetics, whereas photoactivated Tbeta4 significantly inhibited actin poly
281  These simulations demonstrated that locally photoactivating Tbeta4 in keratocytes could potentially
282 ricin used and the dose of light required to photoactivate the compound.
283                   In search of strategies to photoactivate the luminescence of semiconductor quantum
284 e usefulness of this approach to selectively photoactivate the production of singlet oxygen in ROS st
285  block blood flow in the targeted artery, we photoactivated the rose bengal by illuminating the longi
286               We demonstrated its utility by photoactivating the beta-catenin pathway, achieving a tr
287 n of light can be used for a wide variety of photoactivated therapies, especially light-triggered DDS
288 esented as a compound II species that can be photoactivated to compound I.
289 roduct (e.g., chlorate and chlorite) through photoactivated transformations.
290 n is caused by an instability created by the photoactivated transitions between two immiscible states
291 les fail to migrate in a mutant deficient in photoactivated TRP calcium channels.
292 eutic devices with potential applications in photoactivated tumor therapy.
293 ected with the caged FAK peptide and locally photoactivated using a focused laser beam.
294                                              Photoactivated VCOP(D108A) had kinetics comparable to th
295 and likely reflects the spontaneous decay of photoactivated visual pigment.
296                                          The photoactivated W(CO)(6)/DABCO/THF system has been used f
297                                   Hypericin, photoactivated with 1.1-3.3 J white light per cm2, inhib
298 sh-pull fluorophore so that it is dark until photoactivated with a short burst of low-intensity viole
299                                   Hypericin, photoactivated with either UVA or white light, could ind
300 cs with theranostic nanoparticles, which are photoactivated within highly localized space near tumour

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