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1 atalyzed Huisgen 1,3-dipolar cycloaddition ("click chemistry").
2 ions, has been synthesized via alkyne-azide "click chemistry".
3 cyclic alkyne reagents for fast and tunable "click chemistry".
4 quipped with a propargylglycine residue for "click chemistry".
5 ed azide-alkyne cycloaddition, often termed "click chemistry".
6 ymerization (ATRP) signal amplification and "Click Chemistry".
7 oselective fluorescence tagging by means of 'click chemistry'.
8 synthesized proteins were then labeled via 'click chemistry'.
9 dibenzocyclooctyne (DBCO)-Cy5 by subsequent click chemistry.
10 cently emerging applications in the field of click chemistry.
11 -selective peptide cyclo(FRGDLAFp(NMe)K) via click chemistry.
12 und to SH functionalities applying thiol-ene click chemistry.
13 ygen-sensing dendrimers through azide-alkyne click chemistry.
14 onversion to the corresponding triazoles via click chemistry.
15 nm in length were grown layer-by-layer using click chemistry.
16 dipolar cycloaddition reaction, a variant of click chemistry.
17 none for photocrosslinking and an alkyne for CLICK chemistry.
18 containing cellular proteins by azide-alkyne click chemistry.
19 owing since its stimulation by the advent of click chemistry.
20 d to azide functionalized VHH domains, using click chemistry.
21 oxynaphthalene (DNP) recognition units using click chemistry.
22 hus going far beyond the original purpose of click chemistry.
23 l PG using d-amino acid dipeptide probes and click chemistry.
24 ed exploiting 5'-ethynyluridine labeling and click chemistry.
25 like receptors (TLRs) and also determined by click chemistry.
26 synthesized by convergent methodology using click chemistry.
27 s novel clubbed 1,2,3-triazole hybrids using click chemistry.
28 vator, 17-alpha-ethynylestradiol (17EE), via click chemistry.
29 ns for the use and applications of thiol-ene click chemistry.
30 labeled with mass tags to the bound probe by Click chemistry.
31 amine and pyrene azide using Cu(I)-catalyzed click chemistry.
32 ional design of new reagents for copper-free click chemistry.
33 high-relaxivity multiplexed probes utilizing click chemistry.
34 ring-expansion metathesis polymerization and click chemistry.
35 tabolically labeled glycans with copper-free click chemistry.
36 h intrinsic reactivities desired for Cu-free click chemistry.
37 immobilization of azides using catalyst-free click chemistry.
38 uran salicylic acid derivatives assembled by click chemistry.
39 tach different, large hydrophobic groups via click chemistry.
40 ng and tracking strategy using bioorthogonal click chemistry.
41 matic method using the engineered enzyme and click chemistry.
42 merization modification with triazolinedione click chemistry.
43 (SuFEx) has emerged as the new generation of click chemistry.
44 proteins with a non-canonical amino-acid and click chemistry.
45 hen assembled in a combinatorial fashion via click chemistry.
46 king such functionality available for use in click chemistry.
47 ementary oligonucleotides, and bioorthogonal click chemistry.
48 ovalent cross-linking using copper catalyzed click chemistry.
49 re conjugated to IRDye 800 using copper-free click chemistry.
50 oinitiators, which makes it truly two-photon click chemistry.
51 -selective peptide cyclo(FRGDLAFp(NMe)K) via click chemistry.
52 erns and directly on microelectrodes with UV-click-chemistry.
53 orophores via bioorthogonal copper-catalyzed click-chemistry.
54 red to the surface utilizing bio-orthogonal "click" chemistry.
55 yzed azide-alkyne cycloaddition reaction in "click" chemistry.
56 sized using stepwise imine condensation, or "click" chemistry.
57 rivatized conducting PEDOT electrodes using "click" chemistry.
58 incorporation of unnatural amino acids and "click" chemistry.
59 Ru(II) polypyridyl chromophores coupled via "click" chemistry.
60 because 1,2,3-TRZs are easily obtained via "click" chemistry.
61 diated amine-to-nitrile addition, a form of "click" chemistry.
62 hod using DNA methyltransferase (Mtase) and "click" chemistry.
63 receptor (AVP V(2)R) was synthesized using "Click" chemistry.
64 ole and triazole derivatives prepared using "click" chemistry.
65 tion of alkyne-derived motifs for so-called "click" chemistry.
66 with an azide-containing fluorophore using 'click' chemistry.
67 e being discussed, involving orthogonal and 'click' chemistries.
68 rged precursors, causing them to combine by "click" chemistry 1,000,000 times faster than without acc
69 he Fe(III)-HOPO ICP particles by copper-free click chemistry afforded colloidally stable nucleic-acid
71 The orthogonality of oNQM-thiol and azide click chemistry allowed for the development of a sequent
73 rporated an alkyne-containing amino acid for click chemistry, an important post-translationally modif
75 Ras was validated as an APT-1 substrate, and click chemistry analyses demonstrated increased R-Ras pa
76 tic acid into cellular proteins coupled with click chemistry and (ii) detecting a specific protein of
79 lly conserved compounds that are amenable to click chemistry and can be used as molecular probes in v
82 minescent quantum dot (QD) surfaces that use click chemistry and hydrazone ligation under catalyst-fr
83 We adapted newly developed procedures for click chemistry and iPOND (Isolation of proteins on nasc
85 Herein, an introduction to the impact of click chemistry and other bioorthogonal reactions on the
86 2,3-triazole moieties were prepared by using click chemistry and showed low nanomolar inhibitory acti
87 backbone using for the first time sequential click chemistry and stepwise assembly of functional buil
88 lyl donor/acceptor unnatural nucleosides via click chemistry and studies on the duplex stabilization
89 njugated with two oligoguanosine strands via click chemistry and the conjugates were then self-assemb
90 , we present an optimized strategy combining click chemistry and the genetic encoding of unnatural am
91 ibrary of these compounds was prepared using click chemistry and the selectivity concept was validate
92 the utility and multimodal possibilities of click chemistry and to increase enzyme active site inclu
93 ique combination of facile accessibility via click chemistry and truly diverse supramolecular interac
95 ole-based IL moieties were synthesized using click chemistry and were further copolymerized with laur
96 triazole linker is afforded by azide-alkyne "click" chemistry and comprises the third arm of the trip
99 ates from the stoppering reaction, based on "click" chemistry, and thus from the presence of two tria
100 any different biological purposes, including click chemistry applications, diversity-oriented synthes
102 4) and sodium ascorbate independently of the click chemistry approach used (azido-COUPY/alkynyl-pepti
104 Herein, we report for the first time a "click" chemistry approach to oligonucleotide probe elong
108 inal alkyne group, we were able to visualize click chemistry at the single-molecule level, which reve
112 fluoride exchange (SuFEx) is a new family of click chemistry based transformations that enable the sy
114 eloped a robust, high-throughput compatible, click chemistry-based approach to identify small molecul
116 transformation into acyl-CoAs and subsequent click chemistry-based detection, to demonstrate that zDH
117 axolotl salamander tissue using whole-mount click chemistry-based fluorescent staining followed by l
120 g precursor was synthesized and subjected to click chemistry-based radiosynthesis of [(18)F]FGlc-FAPI
123 sulfonates can be further functionalized via click-chemistry-based post-polymerization modification.
124 ith the ART probe can then be isolated using click chemistry before identification by liquid chromato
125 dy against respiratory syncytial virus using click chemistry between biotin molecules functionalized
127 osecond photochemical reaction (nsPCR)-based click chemistry, capable of structural probing of protei
128 ecial focus capitalizes on the impact of the click chemistry concept on dendrimer synthesis and the p
129 ys a series of steps that capture fully the "click" chemistry concepts that have greatly facilitated
134 techniques, including acyl-biotin exchange, click chemistry, cysteine mutagenesis, and mass spectrom
135 ) linker was found compatible with different click chemistries, demonstrated in bioreversible protein
138 orthogonal amino acid using copper-catalyzed click chemistry, either before or after the silk fibers
139 gamma-azido vinyl sulfones, and azide-alkyne click chemistry enabled the synthesis of vinyl sulfone-b
140 s as a cellular engagement probe for MPC2 in click chemistry-enabled western blotting or global mass
142 click reaction is orthogonal to azide-alkyne click chemistry, enabling sequential photoclick/azide-cl
144 bstitutes for high-throughput screening, and click chemistry ensures that chemical synthesis is fast,
146 Biotin conjugation to EdU-labeled DNA using click chemistry facilitates a single-step streptavidin p
147 various thiols by radical mediated thiol-ene click chemistry, followed by self-assembly in deionized
148 or D-glucose to L-cysteine using thiol-ene "click" chemistry, followed by their conversion to the co
149 al reagents that enable protein labeling via click chemistry for affinity purification and detection
150 derived components and relied on copper-free click chemistry for bioorthogonal covalent cross-links t
151 roach is highly versatile, as it (i) enlists click chemistry for flexible protein functionalization;
152 nation atoms were prepared in high yield via click chemistry for potential incorporation into metal c
153 K) that harnesses the power of bioorthogonal click chemistry for remodeling guide RNA to display synt
155 of biomolecules via Huisgen cycloaddition ("click chemistry") for positron emission tomography (PET)
156 hat can undergo bio-orthogonal ligation via 'click' chemistry, for example, an azide, and can be used
157 des and cyclooctynes, also known as "Cu-free click chemistry," for labeling biomolecules in live mice
158 mizing reaction conditions, we converted CB6 click chemistry from a rotaxane synthesis tool into a us
159 itterionic salts, which are prepared through click chemistry from readily accessible alkynes and sulf
160 ino acid side chains, including non-natural 'click' chemistry functionalities, to conjugate moieties
161 ification of target proteins, an alkyne as a click-chemistry handle for target identification, and a
164 and kinetics of radical initiated thiol-ene click chemistry has been studied computationally at the
165 labeling using sugar analogs compatible with click chemistry has the potential to provide new insight
166 the most versatile bioorthogonal reactions, "click chemistry", has been exploited to overcome limitat
169 eling of target proteins and biologics using click chemistries, (ii) for glycoengineering of antibodi
170 al amino acid incorporation and cell surface click chemistry in bacteria with high-throughput sorting
173 he successful advancement of Cu(I)-catalyzed click chemistry in glycoscience and its applications as
174 and evaluated a pretargeting strategy using click chemistry in vivo to reduce kidney uptake and avoi
175 combination of genetics and maleimide-based click chemistry in which a cysteine substitution is made
176 meter and synthesized via an astoichiometric click-chemistry in-emulsion method, controllably display
178 les for sulfur(VI) fluoride exchange (SuFEx) click chemistry, in which either the alkenyl moiety or t
180 labeling followed by the use of reagent-free click chemistry is an established technique for in vitro
185 hogonality and versatility of the thiol-ene "click" chemistry is expected to allow the a la carte che
188 ctynes with azides, also called "copper-free click chemistry", is a bioorthogonal reaction with wides
189 as well as their myriad of applications in "click" chemistry it is interesting to note that the synt
191 review will focus on recent applications of click chemistry ligations in the preparation of imaging
193 also included an alkyne group to facilitate click chemistry-mediated conjugation of reporter tags fo
194 ia, enabling in vivo photo-cross-linking and click-chemistry-mediated analysis of mycolate-interactin
196 Here we describe the application of a new click chemistry method for fluorescent tracking of prote
197 inking of BT to a biotin-linked moiety using click chemistry methods and coating of BT with nonreacti
198 tion, controlled radical polymerization and "Click Chemistry" methods have significantly evolved over
199 tein nanocapsules incorporating copper-free "click chemistry" moieties, polyethylene glycol (PEG) uni
200 tion (also known as copper-free azide-alkyne click chemistry), nanoparticles bearing a high-density s
203 The cyclopropenone-based phototriggered click chemistry offers exciting opportunities to label l
204 d utilizing carbonate ester and azide-alkyne click chemistries on the surface of the closo-B(12)(2-)
205 gical and medical sciences by application of click chemistry or classic esterification and amidation.
206 ent probe cyanine 5 at their focal point via click chemistry permitted the evaluation of their cellul
209 Combining the siloxane crosslinker with click chemistry produces exchangeable LCE (xLCE) with tu
213 Modifying Janus particles through thiol-yne click chemistry provides a fast-reacting, scalable synth
215 tein of interest with high sensitivity using click chemistry, proximity ligation and fluorescence mic
216 tion sequencing) library synthesis that uses click chemistry rather than enzymatic reactions for the
217 4-5-step process, involving as a key step a click chemistry reaction between ynamides and azides.
218 By taking advantage of a facile, one-pot click chemistry reaction, we report herein the preparati
219 corporated OP-Puro can be detected through a click-chemistry reaction that links it to a fluorescentl
223 were used as reaction templates for in situ click-chemistry reactions to generate a congeneric serie
224 t supramolecular catalysts for alkyne-azide "click chemistry" reactions, yielding the desired 1,4-add
226 ons via selective-pressure incorporation and click chemistry, respectively, without affecting the Ub
227 ylcyclooctyne (DBCO-Cy5.5) via bioorthogonal click chemistry, resulting in Cy5.5-labeled CTLs (Cy5.5-
228 exciting reaction to other well-established click chemistry schemes, its high reaction speed and its
229 through the use of single-generation in situ click chemistry screens against large peptide libraries.
231 dendrimers synthesized from Cu(I)-catalyzed click chemistry showed a high level of copper contaminat
235 vantages of highly chemo- and regioselective click chemistry, such as mild reaction conditions, effic
236 unched AChE as a reaction vessel for in situ click-chemistry synthesis of high-affinity TZ2PA6 and TZ
237 e in situ reaction products established that click-chemistry synthesis with surrogate receptor templa
238 uses a novel synthetic photoactivatable and click chemistry-taggable phospholipid probe, which, when
241 of efficient blue-emitting fluorophores via click chemistry that could be potential luminophores in
242 We confirmed using 5-ethynyl-2'-deoxyuridine click chemistry that the Oc-Cre lineage includes very fe
245 abolic labelling combined with bioorthogonal click chemistry (that is, reactions performed in living
246 eactions have been developed, exemplified by click chemistry, that enable the efficient formation of
247 Combining ATRP signal amplification with "Click Chemistry", the optimized DNA biosensor was capabl
248 e caged dye to the substrate of interest via click chemistry, the allyloxy appendage was functionaliz
250 re constructed according to the reactions of click chemistry, they can be easily synthesized for subs
252 re, we introduce several approaches based on click chemistry, through which we study the distribution
253 r cells and perform efficient, biocompatible click chemistry, thus acting as intracellular nanoscale
254 ve developed a modification of bioorthogonal click chemistry to assay the palmitoylation of cellular
257 l coupling of multifunctional monomers using click chemistry to create a branched cross-linked polyme
258 C termini using sortase transpeptidation and click chemistry to create a covalently linked IgG antibo
259 zed peptides were synthesized by solid phase click chemistry to develop novel, potent, selective MC4R
260 ic modification of PG can be extended to use click chemistry to fluorescently label the mature PG in
262 polymer backbone by exploiting azide-alkyne click chemistry to functionalize the hydrogels with a pe
263 e picture) were subjected to high-throughput click chemistry to generate a library of sialic acid ana
264 e cell labelling with azidomyristic acid and click chemistry to identify N-myristoylated proteins in
265 ligosaccharide engineering and bioorthogonal click chemistry to label various commensal anaerobes, in
267 olyprotein construct and DNA via copper-free click chemistry to PEG-coated substrates and a strong bu
268 demand (EVOD) chip utilizes a catalyst-free click chemistry to rapidly and specifically isolate EVs
269 canonical amino acid tagging method, we used click chemistry to study the role of protein synthesis a
270 lkynylphosphonate can be functionalized via "Click" chemistry to generate the 1,2,3-triazolyl or subs
271 Here, we present a simple strategy using 'click' chemistry to couple biotin to a 'caged' photoclea
272 ere surface functionalized with folate using click-chemistry to improve targeted uptake by the malign
274 to activate cellulosic materials for CuAAC "click chemistry", to develop new fluorogenic esterase se
275 t reaction (thiol-acrylate/thiol-ene 'double-click' chemistry) to obtain highly uniform dynamically c
277 tionally designed and developed via a facile click-chemistry type postfunctionalization, which can fo
278 active scaffolds was synthesized by means of click-chemistry under non-conventional microwave heating
284 discovered by combinatorial copper-catalyzed click chemistry, was synthesized in situ by incubating e
285 ighly DNA specific and efficient enzyme, and click chemistry, we demonstrated that as little as 0.1 f
287 cancer associated surface proteins into the click-chemistry, we were able to selectively recover can
288 can be covalently attached to surfaces using click chemistry, where they retain their abilities to in
289 ), and rapid and efficient radiolabeling via click chemistry with (18)F-labeled trans-cyclooctene ((1
292 can be employed for toxin derivatization by click chemistry with an azide-containing reporter molecu
295 ght into this dynamic interface, we combined Click chemistry with pulsed stable isotope labelling of
296 ith ease", by combining classic C-C pai-bond click chemistry with recent developments in connective S
297 tes by combining stable isotope labeling and click chemistry with subsequent mass spectrometry analys
298 t of the ligand to a surface by conventional click chemistry without disturbing selective interaction
299 lysis of ~ 300 derivatives synthesized using click chemistry yielded compounds with greatly enhanced
300 of new biotin 1,2,3-triazole analogues using click chemistry yielded our most potent structure (K(i)