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1 full cardiovascular activities for potential therapeutic application.
2 ich might not be desirable in light of human therapeutic application.
3 iac progenitor cells for widespread clinical therapeutic application.
4 on in wild-type COs, which thus limits their therapeutic application.
5 t and reproducible studies of EV biology and therapeutic application.
6 y of iPSCs is an important consideration for therapeutic application.
7 ey uptake, making it an excellent choice for therapeutic application.
8 typic alterations, with implications for its therapeutic application.
9 holds promise for a feasible osteoarthritis therapeutic application.
10 between homologous sequences, limiting their therapeutic application.
11 endomitosis with translatable potential for therapeutic application.
12 ered agent in preclinical development or for therapeutic application.
13 n K1 that could open up possibilities of its therapeutic application.
14 rome (CRS) and neurotoxicity, impeding their therapeutic application.
15 ential to revolutionise cell engineering for therapeutic applications.
16 cuss the perspectives of mTORC inhibitors in therapeutic applications.
17 re of increasing importance for wide ranging therapeutic applications.
18 nd can be exploited for chemical biology and therapeutic applications.
19 esign of efficient bispecific antibodies for therapeutic applications.
20 al cell responses with relevance to putative therapeutic applications.
21 for the development of future diagnostic and therapeutic applications.
22 ars, mainly due to its nutritional value and therapeutic applications.
23 oles of the six mATG8 homologs for potential therapeutic applications.
24 between their pathways is critical for their therapeutic applications.
25 stic biomarker of fatty liver with potential therapeutic applications.
26 form for protein-based material delivery for therapeutic applications.
27 target for the development of diagnostic and therapeutic applications.
28 certain biomedical research, diagnostic and therapeutic applications.
29 iew the opportunities for basic research and therapeutic applications.
30 immunosuppressive functions of IFNgamma for therapeutic applications.
31 and favorable tracer kinetics for potential therapeutic applications.
32 atable nanomaterials for both diagnostic and therapeutic applications.
33 strong, specific binding for engineering and therapeutic applications.
34 siRNA carriers for in vivo purposes towards therapeutic applications.
35 s to generate a scalable source of cells for therapeutic applications.
36 i-inflammatory proteins for potential future therapeutic applications.
37 ll biology and engineering of stem cells for therapeutic applications.
38 xtensively as pesticides and in a variety of therapeutic applications.
39 - or IRAK4-specific inhibitors for potential therapeutic applications.
40 ng tool and holds immense promise for future therapeutic applications.
41 mising strategy for fundamental research and therapeutic applications.
42 main challenges and prerequisites for their therapeutic applications.
43 cells (MSC) have been promoted for multiple therapeutic applications.
44 ct from infection and reduce viral load upon therapeutic applications.
45 in a broad range of biomedical research and therapeutic applications.
46 ase modeling, drug screening, and cell-based therapeutic applications.
47 y is an important property in industrial and therapeutic applications.
48 ractive biopolymer system for diagnostic and therapeutic applications.
49 h to generate multifunctional antibodies for therapeutic applications.
50 l interest to both life science research and therapeutic applications.
51 s9 system has triggered enormous interest in therapeutic applications.
52 coholic steatohepatitis, and their potential therapeutic applications.
53 idely studied and developed for cosmetic and therapeutic applications.
54 ogical/pathological processes, and potential therapeutic applications.
55 broadly applicable to numerous research and therapeutic applications.
56 n T cells could potentially be harnessed for therapeutic applications.
57 chemical scaffold for related imaging and/or therapeutic applications.
58 al for a variety of important diagnostic and therapeutic applications.
59 s potential antiviral targets with effective therapeutic applications.
60 ntial research applications and, especially, therapeutic applications.
61 ing hypoglycosylated alpha-DG, for potential therapeutic applications.
62 tem has potential use in many diagnostic and therapeutic applications.
63 r communication with possible diagnostic and therapeutic applications.
64 tion of highly specific fully human mAbs for therapeutic applications.
65 ing the groundwork for future diagnostic and therapeutic applications.
66 e broad utility in research, diagnostic, and therapeutic applications.
67 ons of PXR that can be explored for relevant therapeutic applications.
68 CE inhibitory potential for nutraceutical or therapeutic applications.
69 otential delivery vectors for diagnostic and therapeutic applications.
70 benefits of this approach for diagnostic and therapeutic applications.
71 he future to advance biomedical research and therapeutic applications.
72 cific brain circuits for neuroscientific and therapeutic applications.
73 ntiviral vectors (LVs) has several promising therapeutic applications.
74 rea of intense research due to its potential therapeutic applications.
75 d reduce off-target effects for research and therapeutic applications.
76 DNA binding affinity of deaminases for safer therapeutic applications.
77 ications on proteins for many biological and therapeutic applications.
78 new modes of biological activity, including therapeutic applications.
79 otherapy, stem cell reprogramming, and other therapeutic applications.
80 f protein-protein interactions for potential therapeutic applications.
81 signaling for basic science and possibly for therapeutic applications.
82 ing receptor-specific analogs with potential therapeutic applications.
83 cokinetic properties of oligonucleotides for therapeutic applications.
84 warrant further investigation for potential therapeutic applications.
85 g gene-corrected, patient-specific iPSCs for therapeutic applications.
86 obilized for imaging, biochemical assays, or therapeutic applications.
87 62 immunomodulatory mechanisms with possible therapeutic applications.
88 rnative to wild-type SpCas9 for research and therapeutic applications.
89 ces pave the way toward biotechnological and therapeutic applications.
90 ghting the potential use of this library for therapeutic applications.
91 evising new lecithin delivery strategies for therapeutic applications.
92 tion and the prospects of targeting Bub1 for therapeutic applications.
93 1 receptor, highlighting their potential for therapeutic applications.
94 prognostic biomarker and a target for future therapeutic applications.
95 eukemia cell models to explore its potential therapeutic applications.
96 and may facilitate the development of future therapeutic applications.
97 sicles and their potential in diagnostic and therapeutic applications.
98 ecule delivery to encapsulate stem cells for therapeutic applications.
99 2-fold increased efficacy, suggesting broad therapeutic applications.
100 In addition, miR-126 has potential therapeutic applications.
101 be of value for regenerative medicine and/or therapeutic applications.
102 imizing C-to-G base editors for research and therapeutic applications.
103 w a great potential for human diagnostic and therapeutic applications.
104 the use of gold quantum dots for imaging and therapeutic applications.
105 formations suggests advantages for potential therapeutic applications.
106 l biomarkers for diagnostic, prognostic, and therapeutic applications.
107 d specificity of DNA targeting for potential therapeutic applications.
108 potential of nanoparticles in diagnostic and therapeutic applications.
109 nd we discuss its stability and function for therapeutic applications.
110 tro and in vivo, and its inhibition may have therapeutic applications.
111 ting cytokine signaling as well as potential therapeutic applications.
112 development of S6K inhibitors with possible therapeutic applications.
113 ssay may have many potential mechanistic and therapeutic applications.
114 ompared with other agents, showing promising therapeutic applications.
115 te that GalNAc-conjugated PNAs have possible therapeutic applications.
116 n-display systems in vaccine development and therapeutic applications.
117 tant to both basic immunological studies and therapeutic applications.
118 r pathologies, with potential diagnostic and therapeutic applications.
119 emains a considerable concern, especially in therapeutic applications.
120 pulating ability, thereby limiting potential therapeutic applications.
121 des a steppingstone for potential downstream therapeutic applications.
122 ent knowledge gaps, potential solutions, and therapeutic applications.
123 ffects, as well as a wide-range of potential therapeutic applications.
124 d be used to culture human SSCs in vitro for therapeutic applications.
125 g knowledge have hindered the development of therapeutic applications.
126 logy holds great potential to develop future therapeutic applications.
127 JB2 a promising candidate for nanobody-based therapeutic applications.
128 antibodies for a broad range of research and therapeutic applications.
129 ficant challenge for vector effectiveness in therapeutic applications.
130 e guidelines for informed choice of GAGs for therapeutic applications.
131 t-mortem are frequently used for research or therapeutic applications.
132 urious off-target edits present a barrier to therapeutic applications.
133 materials for more effective diagnostic and therapeutic applications.
134 ionalities in cells for biotechnological and therapeutic applications.
135 logical materials has several diagnostic and therapeutic applications.
136 ite-selective modification of antibodies for therapeutic applications.
137 ool to design novel molecules with potential therapeutic applications.
138 tems compatible with both research and human therapeutic applications.
141 highlight the potential of MAb 53C10 in the therapeutic application against H1 influenza virus infec
142 drial metabolic vulnerability with potential therapeutic applications against chemotherapy-resistant
143 FA patients, gene editing holds promise for therapeutic applications aimed at functionally restoring
145 al from Cannabis sativa with a wide range of therapeutic applications and a long history of recreatio
148 tic resistance and considerations for future therapeutic applications and translation into the clinic
149 l deficits, the rapid expansion of potential therapeutic applications and ultrasound pulse-train prot
151 new strategies to engineer TIMP proteins for therapeutic applications, and our directed evolution app
153 uthful cells is currently being explored for therapeutic applications, aspects that relate to acceler
154 e hard to manipulate, focusing translational therapeutic applications at the environments appears to
155 antitoxin agents are not only promising for therapeutic applications, but also can be used as tools
156 molecules valued not only for their diverse therapeutic applications, but also for their role in con
157 rative potential is important to develop new therapeutic applications, but the identification advance
159 er, transgene expression is not amenable for therapeutic application due to potential insertional mut
160 ious limitations for advanced prosthetic and therapeutic applications due primarily to their lack of
161 or beta (TGFbeta) superfamily with potential therapeutic applications due to their broad biological f
162 al/clinical development for prophylactic and therapeutic applications due to their potency and their
163 ioxidant and anti-inflammatory agent used in therapeutic applications, e.g. in the treatment of diabe
164 for development of RNA origami for potential therapeutic applications especially as a safer surgical
165 the dystrophin glycoprotein complex may have therapeutic application for all DMD patients, regardless
166 Taken together, our work suggests a new therapeutic application for Ambrisentan in the treatment
168 sing on practical aspects of their potential therapeutic application for selective inhibition of smoo
169 biological processes and in their potential therapeutic application for stress-related psychopatholo
170 hus, videogame training might have important therapeutic applications for amblyopia and other visual
171 ive cancer phenotypes and offer insight into therapeutic applications for better survival of patients
172 the development of diagnostic, imaging, and therapeutic applications for cancers that express the an
173 ntal for regenerative medicine as well as in therapeutic applications for immune-related diseases.
174 As such, these molecules have potential therapeutic applications for myriad indications, with se
175 ro, and recent studies have demonstrated new therapeutic applications for passively administered bNAb
176 es in HNSCC progression, including potential therapeutic applications for such enzymes in combination
179 n and proliferation, and highlight potential therapeutic applications for this SPM to promote mucosal
180 be used for the identification of genes with therapeutic applications for treating infectious, inflam
181 h for enhancing IGF1 signaling has potential therapeutic applications for treating skeletal muscle at
182 ion should be further explored for potential therapeutic applications.FUNDINGNetherlands Organization
183 e reagents remains a concern, especially for therapeutic applications, given the potential mutagenic
184 ing a sufficient quantity of CO for possible therapeutic applications has been studied using a cell c
186 evelopments towards an improved compound for therapeutic application have identified FAPI-46 as a pro
187 developments toward an improved compound for therapeutic application have identified FAPI-46 as a pro
189 ibuted extensively to basic neuroscience and therapeutic applications; however, the dimensional and m
190 mutations, opening the opportunity for their therapeutic application in an autologous transplantation
193 richuris suis ova (TSO) have been tested for therapeutic application in inflammatory bowel diseases (
194 for the development of a drug candidate with therapeutic application in mitochondrial oxidative stres
195 rough distinct pathways, providing potential therapeutic application in ocular vascular disease.
196 s been widely documented and their potential therapeutic application in regenerative medicine or angi
197 t peptide motifs and provide a blueprint for therapeutic applications in a variety of cancers and per
198 actively pursued because of their potential therapeutic applications in cancer and other diseases.
199 to investigate haematopoietic processes for therapeutic applications in cancer, infection and cardio
200 bufalin and lycorine as drug candidates for therapeutic applications in cardiac fibrosis and diastol
202 and PEA have endogenous roles and potential therapeutic applications in conditions of intestinal hyp
203 th receptor activation should have important therapeutic applications in diseases such as nonalcoholi
204 The finding has mechanistic and potentially therapeutic applications in hepatocyte growth biology, h
205 ed short palindromic repeats) technology for therapeutic applications in humans, focusing on specific
206 ibitors of BET proteins could have important therapeutic applications in inflammatory renal diseases.
208 h respect to proof-of-concept cardiovascular therapeutic applications in mouse models-which might eve
210 benign adipose tissue expansion and may have therapeutic applications in obesity or lipodystrophy.
211 diovascular basic science research, possible therapeutic applications in patients with cardiovascular
212 represent a safer alternative for potential therapeutic applications in patients with ischemic myoca
213 integration and provide motivation for novel therapeutic applications in patients with lexical-semant
218 les and opens the door to novel research and therapeutic applications in the field of custom RNA pack
219 f the CRISPR-Cas system, and outline current therapeutic applications in their clinical translation.
222 , skin rejuvenation and hair growth, and for therapeutic applications including influenza vaccination
223 sent a relatively new target system for many therapeutic applications including pain regulation, modu
224 or stromal cells (MSCs) have many potential therapeutic applications including therapies for cancers
226 expression has been shown to have potential therapeutic applications, making the enzyme a promising
228 of venous thrombi in vivo, and the potential therapeutic application of a p53 agonist as a treatment
231 scuss both current challenges preventing the therapeutic application of alternative TSAs and potentia
233 e data represent a proof-of-principle that a therapeutic application of DIPs to combat NiV infections
234 These findings have implications for the therapeutic application of FGFR inhibitors as they ident
236 owever, one of the major limitations for the therapeutic application of human MSC (hMSC) is the lengt
242 l and clinical studies aiming to broaden the therapeutic application of PARPis identified sensitivity
243 present study suggest the potential for the therapeutic application of PKCalphabeta inhibition in AC
244 an explosion of new work with regard to the therapeutic application of proresolving ligands in exper
246 has important implications for the potential therapeutic application of quorum-sensing blockers.
247 ation of pancreatic tissue and prohibits the therapeutic application of radiolabeled exendin for beta
249 sensory functions that could be rescued with therapeutic application of the heat shock protein in viv
254 psychiatric and neurodegenerative disorders, therapeutic application of VEGFD may help to stabilize d
255 hibitor (FAPI) (68)Ga-FAPI-04, and the first therapeutic applications of (90)Y-FAPI-04 have been appl
260 orted populations, underlining the potential therapeutic applications of GP2.Pancreatic progenitors (
261 is Review addresses the emerging biology and therapeutic applications of human ARSs in diseases inclu
263 ew could have important implications for the therapeutic applications of oxytocin in conditions chara
269 ever, the study of iNKT cell biology and the therapeutic applications of these cells are greatly limi
270 by OT release and underscore the potentially therapeutic applications of these methods for disorders
272 the context of GVHD, and discusses potential therapeutic applications of Tregs in the prevention or t
273 y provides the proof of principle to support therapeutic applications of viral-vectored vaccines via
275 xploited as carriers for in vivo imaging and therapeutic applications, owing to their capability to e
276 roy target proteins for biotechnological and therapeutic applications.Proteases are promising therape
278 er doses, thereby improving the outcome of a therapeutic application, several FAPI variants were desi
279 high temperatures and acidic environments of therapeutic applications significantly limiting therapeu
281 n vivo screening and design of LNPs for mRNA therapeutic applications such as CRISPR-Cas9 gene editin
282 ic nanoparticles are promising new tools for therapeutic applications, such as magnetic nanoparticle
283 vo cardiac function of IF1 and the potential therapeutic application targeting IF1 remain obscure.
286 9) limits its utility for basic research and therapeutic applications that use the highly versatile a
287 ly broad translatability of our strategy for therapeutic applications.The therapeutic use of single-c
288 ilitate exciting new avenues of research and therapeutic applications through AAV-based delivery of C
289 tive disorders, but also seem to have unique therapeutic applications to directly target and remodel
290 ers considerable promise for a wide range of therapeutic applications, toward a greatly enhanced outc
291 opriate hydrolytic stability to expand their therapeutic applications towards more advanced areas.
292 of new molecular targets for diagnostic and therapeutic applications using in vitro methods is an im
294 o determine the potential use of Lawsone for therapeutic application, we harnessed human, murine and
295 oire elicited by WNV infection for potential therapeutic application, we isolated ten mAbs from WNV-i
296 , which have gained increasing attention for therapeutic applications, were shown to stimulate T lymp
297 in prostate cancer raise concerns about its therapeutic application, which need to be evaluated in f
298 s in the implementation of nanoparticles for therapeutic applications will accelerate with an improve