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1 les of genomic "clothing" and restore normal cellular function.
2 response (ISR), which is critical to normal cellular function.
3 RNA modifications play a fundamental role in cellular function.
4 ed processes that can be targeted to improve cellular function.
5 PS plays in bacteria and how it may regulate cellular function.
6 he regulation of actin is key for controlled cellular function.
7 oles in establishing tissue architecture and cellular function.
8 ding blocks for tools that report or control cellular function.
9 otease domain of CaWss1 is essential for its cellular function.
10 tate underlies gene expression potential and cellular function.
11 he synaptic remodelling attributed to normal cellular function.
12 icrotubule (MT) attachment, and blocks their cellular function.
13 cation in humans and is essential for normal cellular function.
14 n is critical for the maintenance of optimal cellular function.
15 etermined the effects on in vivo binding and cellular function.
16 they can be fuelled appropriately to restore cellular function.
17 ous secondary messenger that is critical for cellular function.
18 raction with the primosome protein PriB, and cellular function.
19 transformations that underpin chemistry and cellular function.
20 a ubiquitous and critical process for proper cellular function.
21 d expressed in cells to probe and manipulate cellular function.
22 increasingly understood to be important for cellular function.
23 ization of a specific chromosomal domain and cellular function.
24 mechanistic insight into PAR4 regulation of cellular function.
25 en incompletely understood, contributions to cellular function.
26 d fast muscle that may underlie the improved cellular function.
27 gnaling networks can help coordinate diverse cellular functions.
28 les ensure spatiotemporal control of various cellular functions.
29 n diverse cellular RNAs allows for its broad cellular functions.
30 n aggregates capable of disrupting essential cellular functions.
31 auxiliary and regulatory subunits, for their cellular functions.
32 iched for controls and show changes in basic cellular functions.
33 distinct and oftentimes opposite effects on cellular functions.
34 eria and Eukarya with large-scale effects on cellular functions.
35 olecular mechanisms used to repair perturbed cellular functions.
36 ting our understanding of their dynamics and cellular functions.
37 x endomembrane system that compartmentalizes cellular functions.
38 s have profound effects on a wide variety of cellular functions.
39 tubules are biopolymers that perform diverse cellular functions.
40 lies is critical to decoding and controlling cellular functions.
41 Organelle crosstalk is vital for cellular functions.
42 mework for how chromatin condensates promote cellular functions.
43 pertoire of dynamic protein interactions and cellular functions.
44 d kinases), with a subset that suggest novel cellular functions.
45 rich spatial dynamics and are vital to many cellular functions.
46 eins into eukaryotic cells to subvert normal cellular functions.
47 t in the cellular milieu and control various cellular functions.
48 g proteins that play key roles in regulating cellular functions.
49 on between cellular metabolism and important cellular functions.
50 brane ectopeptidase involved in many crucial cellular functions.
51 lipid category that is involved in many key cellular functions.
52 esponse of OGG1 and affecting its downstream cellular functions.
53 n cell development, morphogenesis, and other cellular functions.
54 lower-dimensional spaces is used for various cellular functions.
55 nputs, serving as the basis for wide-ranging cellular functions.
56 tes, also facilitate compartmentalization of cellular functions.
57 target proteins to regulate a wide range of cellular functions.
58 ous molecular mechanism that drives numerous cellular functions.
59 huttling factors, implicated in a variety of cellular functions.
60 evolved to mediate distinct antiviral and/or cellular functions.
61 s, the glycans to which they contribute, and cellular functions.
62 etween microbiota and host to influence host cellular functions.
63 motion, membrane trafficking, and many other cellular functions.
64 ple circuits, are used to control individual cellular functions.
65 ntify the activities of diverse pathways and cellular functions.
66 through type I and type II FcgammaR-mediated cellular functions.
67 e cytoskeletal polymers that perform diverse cellular functions.
68 nomes in gene regulation and other essential cellular functions.
69 hance therapeutic efficacy and install novel cellular functions.
70 ly diffusing molecules that are integral for cellular functions.
71 and function as well as on a wide variety of cellular functions.
72 causally related to transcription and other cellular functions.
73 ently been recognized as key players in many cellular functions.
74 ytic TCC concentrations can modulate various cellular functions.
75 to host cells during infections to modulate cellular functions.
76 cross various organisms and regulate diverse cellular functions.
77 otein complexes is crucial for understanding cellular functions.
78 a discrete subset of proteins with different cellular functions.
79 nd secondary messengers, involved in diverse cellular functions.
80 e of life and regulate nearly all aspects of cellular functions.
81 cell-matrix interactions to influence normal cellular functions.
82 of those motions to link local processes to cellular functions.
83 e-gated calcium influx and calcium-dependent cellular functions.
84 e the epigenome and consequently appropriate cellular functioning.
86 organelles are of key importance for normal cellular functions, a growing number of recent observati
89 and their integrity is essential to maintain cellular function and appropriate responses to extracell
91 ar vesicles (EVs) are a universal feature of cellular function and can be detected in different bodil
92 t is essential to examine how alterations in cellular function and cell-to-cell interactions of pulmo
93 in have crucial functions in most aspects of cellular function and embryonic development in both anim
95 ons (GIs) can reveal important insights into cellular function and has potential translational applic
96 how mechanical forces are harnessed to drive cellular function and how force can also be a mode of bi
98 ted mitochondrial networks are essential for cellular function and implicated in multiple diseases.
100 of actin-a protein playing a crucial role in cellular function and motility-make it attractive for ob
103 rface proteins are often integral markers of cellular function and serve as primary targets for thera
104 membrane fluidity; examine genes involved in cellular function and survival in the cold; assess capab
107 ines, myosins are involved in myriad pivotal cellular functions and are frequently sites of mutations
108 ids (Sia) are involved in numerous different cellular functions and are receptors for many pathogens.
110 platform to develop and optimize engineered cellular functions and can serve as a model to implement
113 is that it appears to be many things to many cellular functions and diseases - a pleiotropic actor at
116 e a mesodermal microenvironment, and display cellular functions and extracellular interactions that a
118 s of neurodegeneration through disruption of cellular functions and inducing mitochondria damage and
120 triphosphorylated RNAs (ppp-RNAs) to promote cellular functions and prevent recognition by antiviral
121 partments that produce requisite ATP to fuel cellular functions and serve as centers of metabolite pr
122 reports differential regulation of critical cellular functions and signaling pathways during product
124 enerate alternative mechanisms for conserved cellular functions and test hypotheses concerning the ge
125 transitions relate to pleiotropic defects in cellular functions and the accrual of proteinaceous depo
127 the role of individual components and their cellular function, and to engineering new molecular func
128 ific molecular targets, characterize various cellular functions, and model central nervous system (CN
130 ntracellular metabolism, which in turn alter cellular function; and (2) intercellular immunometabolis
138 biologically relevant cations, execute their cellular functions associated with the conformational ch
139 toxic phage gene has been co-opted for core cellular function at the root of a large bacterial clade
140 s) of mRNAs emerged as central regulators of cellular function because they contain important but poo
141 ries have revealed that the NPC has multiple cellular functions besides mediating the molecular excha
142 lear pore complexes (NPCs) are important for cellular functions beyond nucleocytoplasmic trafficking,
143 provided insight into the molecular basis of cellular function, but current approaches have limited t
144 to have a regulatory role in development and cellular function, but the mechanism involved in TAD est
145 ion, and hemifusion rupture are essential to cellular function, but their molecular details, energeti
146 various protein complexes to confer distinct cellular functions, but how the multi-subunit complexes
147 There are 11 human H1 isoforms with diverse cellular functions, but how they interact with the nucle
148 Heme is an essential cofactor for numerous cellular functions, but release of free heme during hemo
149 f an enzyme active site can therefore impact cellular function by disruption of critical protein-prot
150 Chemotrophic microorganisms gain energy for cellular functions by catalyzing oxidation-reduction (re
151 ases to ensure proteome fidelity and control cellular functions by promoting protein degradation.
152 more generally suggest that m(6)A may exert cellular functions by reshaping the kinetics of RNA conf
153 te proteoglycans that perform many important cellular functions by way of heparan sulfate-protein int
154 ially expressed genes were mostly belongs to cellular functions (calcium and MAPK), phytohormones (au
156 oordinating hub in which seemingly disparate cellular functions converge, and from which a variety of
159 on of cells is an important prerequisite for cellular function, e.g., in the context of cell migratio
161 ltivalent interactions and are platforms for cellular functions, especially receptor-mediated signali
163 new approaches to regulate and direct these cellular functions for the purposes of regenerative medi
164 anylate (c-di-GMP) regulates a wide range of cellular functions from biofilm formation to growth and
166 hich legionellae have coopted genes and thus cellular functions from their eukaryotic hosts, providin
167 necks, a process that is essential for many cellular functions, from cell division to lysosome degra
168 ng systems can generate an enormous range of cellular functions, from mechanical infrastructure and s
169 However, proteome-wide investigation of its cellular functions has been limited due to numerous tech
171 r targets and the growing knowledge of their cellular functions have led to the development of small
174 erate heat stress on molecular signaling and cellular function in HCC cells in vitro.Materials and Me
175 ped technologies can offer new insights into cellular function in natural and human-made systems and
176 l hold clues to understanding differences in cellular function in organisms that are of pressing impo
177 broad impact on the proteomic landscape and cellular function in the pathophysiology of this illness
180 ortant in reprogramming, (2) sGRP78 promotes cellular functions in both pluripotent and breast cancer
181 plays critically important roles in numerous cellular functions in eukaryotes, and it does so across
184 t is unclear how H(2)O(2) influences various cellular functions in health and disease differentially,
187 teins causally linked to various detrimental cellular functions in pathological conditions including
188 tions undergo changes in gene expression and cellular functions in primordial and mature valves.
189 Glycosyltransferases carry out important cellular functions in species ranging from bacteria to h
190 activated and integrated with many different cellular functions in the autoinflammatory process.
191 chloroplasts perform a variety of important cellular functions in the plant cell, which can, for exa
192 as an essential element for a wide range of cellular functions including adenosine triphosphate (ATP
193 h type II FcgammaRs; these receptors mediate cellular functions including antiinflammatory activity o
194 Phosphoinositides (PIs) regulate a myriad of cellular functions including membrane fusion, as exempli
195 r of human cells and facilitates a myriad of cellular functions including organization of the mitotic
197 branes is a vital process for all aspects of cellular function, including growth, metabolism, and com
198 types and is required for numerous essential cellular functions, including cardiac and skeletal muscl
199 Sphingolipids have important roles in many cellular functions, including cell cycle regulation and
200 xperience mechanical forces during essential cellular functions, including cell motility and endocyto
201 membrane (PM) is crucial to a broad range of cellular functions, including cell motility, signal tran
202 chondria are involved in a number of diverse cellular functions, including energy production, metabol
203 y proteins play an essential role in several cellular functions, including growth, differentiation, a
205 n directly and indirectly influence many key cellular functions, including metabolic pathways, DNA re
206 s, signal transduction pathways control core cellular functions, including metabolism, to couple the
207 n cytoskeleton exhibits a number of critical cellular functions, including regulation of cell shape a
208 a broad network of genes mediating a host of cellular functions, including repression of the cell-cyc
209 identified that encompass a wide variety of cellular functions, including roles in DNA repair, mRNA
210 e of biopolymers, regulating a vast array of cellular functions, including signaling, phase separatio
214 e proteins, not mRNA molecules, mediate most cellular functions, it is desirable to know the identity
215 ogether, our results support a model for the cellular function of ADAP1, where KIF13B transports ADAP
217 e, we report the transcriptional program and cellular function of ERRalpha in endothelial cells (ECs)
218 rt for this activity being important for the cellular function of FtsQLB was provided by the identifi
220 -protein complexes plays a major role in the cellular function of membraneless organelles (MLOs).
221 on of miRNAs can bring new insights into the cellular function of miRNA and a further improvement in
224 ow used routinely to study the molecular and cellular functions of a gene within an identified cell t
227 s representative examples of biochemical and cellular functions of biomolecular condensates from the
230 twork (TRN) of Bacillus subtilis coordinates cellular functions of fundamental interest, including me
232 nstrate the ability of 2D MoS(2) to modulate cellular functions of human stem cells through photother
233 r radial glial (oRG) progenitors, suggesting cellular functions of LIS1 in regulating neural progenit
234 el for disseminated candidiasis and that the cellular functions of Mac1p extend beyond Cu uptake and
235 e amino acid (Phe) restores the more dynamic cellular functions of NMII, such as myosin filament form
238 c studies have revealed critical homeostatic cellular functions of SIRT6, underscoring the need to be
239 enance of microcirculation and molecular and cellular functions of the intact pig brain under ex vivo
241 o these species and in doing so affect their cellular function or be the basis for molecular probes.
242 st cases, mild-to-severe localized losses in cellular function or matrix integrity give rise to varyi
243 They are also implicated in a wide range of cellular functions, organizing molecules that act in pro
244 ls such as iron and copper are essential for cellular functions, others such as cadmium and arsenic a
246 to complete their replicative cycle renders cellular functions potential targets for novel antiviral
247 the PI4P it generates regulate a variety of cellular functions, ranging from control of Golgi struct
248 ndividuals with CMV is due to alterations in cellular function rather than a reduction in CD8(+) T ce
250 iled mechanisms by which DeltaPsim regulates cellular function remain incompletely understood, partia
256 and organism wide changes in metabolism and cellular function requires precise regulation of gene ex
260 glycan-containing ligands of CLC/Gal-10, its cellular function(s), and its role(s) in allergic diseas
261 intracellular organelle distributions affect cellular functions, several optogenetic approaches enabl
262 and consequently rescue critical microglial cellular function such as beta-Amyloid phagocytosis.
263 olymers in eukaryotic cells that support key cellular functions such as chromosome segregation, motor
265 ical work and, in doing so, perform critical cellular functions such as DNA replication and transcrip
266 slational modifications (PTMs) that regulate cellular functions such that PTM dysregulation can lead
267 cromolecular structures that fulfill diverse cellular functions, such as adhesion to host cells, the
268 he molecular mechanisms underlying conserved cellular functions, such as DNA replication and cytokine
270 ously expressed CTCF is involved in numerous cellular functions, such as organizing chromatin into TA
271 ting death domain protein, regulates various cellular functions, such as vesicle trafficking, activit
272 of mimics of small molecules with important cellular function that allow the direct observation of t
273 bacterial membrane organization and identify cellular functions that are affected by the loss of caro
274 ncreased basal autophagy and exocytosis, two cellular functions that are independently regulated by R
275 mains largely unknown, particularly for many cellular functions that are not immediately related to g
277 e cell types and consequent loss of specific cellular functions, the local release of cytokines and d
278 ite the essential nature of this process for cellular function, there is little information on the ro
281 target of rapamycin (mTOR) performs diverse cellular functions through 2 distinct multiprotein compl
283 ve sphingolipid mediator involved in various cellular functions through S1PR1-5, expressed by keratin
284 duces protein-protein interactions can allow cellular function to be controlled with small molecules.
285 ranscriptome(4) and proteome(5) data enables cellular function to be studied within most physiologica
287 In the vertebrate striatum, dopamine adjusts cellular functions to regulate behaviors across broad ti
288 ion protein gene (PRNP) and a range of other cellular functions to support their propagation and toxi
289 imental platform for real-time evaluation of cellular function under conditions that replicate native
293 Since herpesviruses are experts at coopting cellular functions, we investigated whether Epstein-Barr
295 ever, understanding of whether drugs restore cellular function will also be important, and studies of
296 tional level, it is carried out with various cellular functions with a distinguishable CCM2 protein g
298 Approaches to safely and effectively augment cellular functions without compromising the inherent bio
299 les in the presence of noise is an important cellular function, yet the underlying computational mech
300 on and oligomerization are essential to most cellular functions, yet measurement of the size of these