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1 ciceptors revealed oxidative stress as a key biological process.
2 ition of this highly complex and fascinating biological process.
3 invasive technique exists to assess this key biological process.
4 ions that could be functional during a given biological process.
5 ellular compartment and involved in the same biological process.
6 he discovery of chemical probes for studying biological processes.
7 es for improving strategies for control over biological processes.
8 erlie IFN-beta-IFNAR1-mediated signaling and biological processes.
9 functional impact of genetic alterations on biological processes.
10 al diversity that profoundly impact multiple biological processes.
11 he membrane properties determining essential biological processes.
12 re provides a new approach for investigating biological processes.
13 e importance of mitochondria in a variety of biological processes.
14 enes related to photosynthesis and other key biological processes.
15 ex (RG4) structures are involved in multiple biological processes.
16 d other modifications in a number of crucial biological processes.
17 ing of the mechanisms regulating fundamental biological processes.
18 lglucosamine (GlcNAc) and regulates numerous biological processes.
19 rbing actin-mediated cellular activities and biological processes.
20 s may present a regulatory point in multiple biological processes.
21 hat integrate geochemical, hydrological, and biological processes.
22 nt regulatory roles in translation and other biological processes.
23 g proteins implicating in a wide spectrum of biological processes.
24 oughput measurements of proteomic changes in biological processes.
25 regulation of a complex array of fundamental biological processes.
26 in acetylation plays important roles in many biological processes.
27 e GO terms and KEGG pathways, including many biological processes.
28 emerging as important regulators of diverse biological processes.
29 nities to unravel molecular heterogeneity of biological processes.
30 ates diverse proteins involved in a range of biological processes.
31 xis play an important role in many essential biological processes.
32 information about the mechanistic details of biological processes.
33 and phosphatases, is critical for nearly all biological processes.
34 post-translational modifications, and other biological processes.
35 ndomembranes, and mediate a diverse range of biological processes.
36 anding of the role of Pfn1 in actin-mediated biological processes.
37 ein deacetylases, which are involved in many biological processes.
38 cts as a gaseous transmitter in a variety of biological processes.
39 , and even intact animals is key to studying biological processes.
40 fide bond formation are involved in multiple biological processes.
41 nvolved in key keratinocyte and skin-centric biological processes.
42 ad function (DHPSF), to accurately visualize biological processes.
43 ors of gene expression and modulate numerous biological processes.
44 lycans play a central role in many essential biological processes.
45 naptic plasticity, and a vast range of other biological processes.
46 ic gene expression and the regulation of key biological processes.
47 ulatory RNA classes involved in a variety of biological processes.
48 tremely influential in many of the essential biological processes.
49 e to aid their knowledge gain on proteins in biological processes.
50 and have no deleterious effect on essential biological processes.
51 be co-regulated and thus involved in similar biological processes.
52 yntheses of secondary metabolites, and other biological processes.
53 e important implications for a wide range of biological processes.
54 es grouping genes often involved in coherent biological processes.
55 o a large number of important industrial and biological processes.
56 ectors of the JA response targeting specific biological processes.
57 cerevisiae, is a pivotal regulator for many biological processes.
58 at extensively regulates gene expression and biological processes.
59 s may transform our view of fundamental cell biological processes.
60 low for genome-wide interrogation of diverse biological processes.
61 diverse and complex roles in a wide array of biological processes.
62 pth, or how plasma-derived RONS intervene in biological processes.
63 hat regulates gene expression and downstream biological processes.
64 on of actin cytoskeleton dynamics in diverse biological processes.
65 modifications play critical roles in diverse biological processes.
66 MAPK (p38alpha) plays a pivotal role in many biological processes.
67 nine (SAM) is critical for a wide variety of biological processes.
68 each gene subset was enriched with different biological processes.
69 on of target proteins and regulates numerous biological processes.
70 nism that plays an important role in various biological processes.
71 vision, they can identify uncurated or novel biological processes.
72 2+) signals that regulate a diverse array of biological processes.
73 s (MVs) that play important roles in various biological processes.
74 t and sometimes even dominant aspect of many biological processes.
75 ering has the potential to shed light on key biological processes.
76 s implicated their crucial functions in many biological processes.
77 s of gene expression that fine-tune numerous biological processes.
78 ne expression and can impact a wide range of biological processes.
79 structing efficient nano-machines applied to biological processes.
80 of numerous noncoding RNAs with key roles in biological processes.
81 ws that miRNA targets were classified to 222 biological processes, 64 cellular component and 42 molec
82 s are commonly used methods to determine the biological processes affected by a differential expressi
84 s significantly influence these physical and biological processes, affecting the atmosphere, shallow
85 with lipid catabolism representing the main biological process and canonical nuclear receptor pathwa
86 imarily reported those involved in different biological process and pathways associated with meat qua
87 are known to play important roles in various biological processes and also recognized as potential bi
88 in-coupled receptors (GPCRs) control diverse biological processes and are of great clinical relevance
89 ion reagents are key tools for understanding biological processes and are used universally by scienti
90 s enable the study of the interplays between biological processes and cancer phenotypes of interest,
91 eins is critical for understanding important biological processes and developing carbohydrate-based p
93 dentify some of the underlying links between biological processes and developmental stages of Drosoph
94 ino acids is very promising for the study of biological processes and for the diagnosis and treatment
95 know that circadian regulation pervades most biological processes and has strong ties to human health
96 ion and differentiation as the most affected biological processes and identified IL-1 cytokines and s
97 abinoids in the regulation of stress-related biological processes and in their potential therapeutic
98 ction in nonmuscle cells underlies many cell biological processes and is based on contractility of ra
101 ially expressed mRNAs revealed enrichment in biological processes and pathways such as IFNgamma, TNFa
103 oding RNAs (lncRNAs) are involved in diverse biological processes and play an essential role in vario
104 on network analysis are used to identify key biological processes and proteins that were plausible ba
105 Ras proteins play vital roles in numerous biological processes and Ras mutations are found in many
108 se resources facilitate the determination of biological processes and support translation of research
109 bout, and methods for, control over specific biological processes and system-wide cell behavior.
110 noncoding (lnc) RNAs are involved in various biological processes and that their dysregulation underl
112 interest in both the fundamental research of biological processes and the emerging field of bioelectr
113 croRNAs (miRNAs) play a crucial role in many biological processes and their dysregulation has a signi
114 r understanding of geological, physical, and biological processes and their links in Earth's critical
115 he cell membrane are central to a variety of biological processes and therapeutic strategies, but vis
116 er have been associated with a number of key biological processes and therefore are proposed to be po
117 nergistically to fine-tune the regulation of biological processes and to remove expression noise rath
118 de an effective platform in monitoring NO in biological processes and would have a great potential in
119 expression (fold-change), gene ontology (GO; biological process) and pathway analyses were performed.
120 with lipid catabolism representing the main biological process, and canonical nuclear receptor pathw
121 Arginine play numerous roles in several biological processes, and also act as a precursor for ma
123 Hydrogen bonds dominate many chemical and biological processes, and chemical modification enables
124 iated mechanisms in cancer disease and other biological processes, and discovery of new therapeutics.
125 key factors in various fundamental cellular biological processes, and many of them are likely to hav
126 elements have been implicated in catalysis, biological processes, and materials and medicinal chemis
127 tions in noncoding RNAs affect a plethora of biological processes, and new functions continue to be d
128 tant reactive intermediates in synthetic and biological processes, and their ground electronic config
131 provide a microscopic picture of how complex biological processes are able to function so fast with h
132 ree of temporal and spatial specificity, yet biological processes are commonly regulated, in a mechan
134 of specific proteins, suggesting that common biological processes are executed by different proteins
139 hat is, the transcribed RNAs participate the biological process as regulatory units instead of genera
140 ecent studies implicate TRBP in a variety of biological processes as a mediator of cross-talk between
144 cell migration, not only in many fundamental biological processes but also in inflammatory diseases a
145 sites and as kinetic traps that can inhibit biological processes, but how G4s are regulated in cells
147 toskeleton is essential for many fundamental biological processes, but tools for directly manipulatin
148 are fundamental, highly nonlinear drivers of biological processes, but we know little about how they
149 cipal curves to condense information of each biological process by a novel scoring scheme on an indiv
150 been implicated in the regulation of diverse biological processes by phosphorylation-dependent protei
151 Protein acetylation plays a critical role in biological processes by regulating the functions and pro
152 s (miRNAs) have been known to affect various biological processes by repressing expression of specifi
153 cle, we propose an algorithm for quantifying biological processes by using gene expression profiles o
155 of specific alleles of genes responsible for biological processes common to angiosperms during the br
156 fficient, and convenient tool to dissect the biological processes controlled by a GPCR-independent me
160 he speed and accuracy of the two fundamental biological processes, DNA replication and tRNA selection
162 ed that epigenetic regulation is a prominent biological process dysregulated in individuals with OGID
163 F) algorithms associate gene expression with biological processes (e.g. time-course dynamics or disea
168 The potential to understand fundamental biological processes from gene expression data has grown
169 a major limitation in the discovery of novel biological processes from the transcriptomic datasets.
170 embranes is of profound significance in many biological processes, from the development of multicellu
171 le to provide useful annotations relating to biological process functions due to the limited power of
174 The importance of nitric oxide (NO) in many biological processes has garnered increasing research in
175 erstanding of the role of PARPs in different biological processes has grown considerably of late.
176 ding of the genetic mechanisms that underlie biological processes has relied extensively on loss-of-f
178 practiced as a means of characterizing most biological processes, I propose that the progression and
180 The affected genes additionally point to biological processes implicated in the interrogated trai
181 itin-proteasome system (UPS) is an essential biological process in the development of eukaryotic orga
182 ol for dissecting in vivo gene functions and biological processes in a temporal manner and for stream
184 (3D) molecular imaging enables the study of biological processes in both living and nonviable system
185 important role in the control of fundamental biological processes in both physiological and pathologi
187 uitination, which is essential to almost all biological processes in eukaryotes, was also found to pl
189 Like falling asleep and waking up, many biological processes in mammals cycle in a diurnal fashi
195 findings suggest that there is a spectrum of biological processes in the diabetic kidney and that ass
196 continuous developmental and lineage-defined biological process, in which Bmpr1a signaling in chondro
197 oteins (SSBs) during fundamentally important biological processes including DNA repair and replicatio
199 life, as they are a crucial requirement for biological processes including reproduction, somatic gro
201 olecular recognition, controls virtually all biological processes including the interactions between
202 epression and has essential roles in various biological processes including the maintenance of cell i
203 Cell migration, which is central to many biological processes including wound healing and cancer
204 affect the collective behaviour in prominent biological processes, including biofilm formation, morph
205 ne kinases (RTK) are major regulators of key biological processes, including cell growth, survival, a
206 iators that are known to be involved in many biological processes, including cell growth, survival, i
207 EBV)-positive tumors, and manipulate several biological processes, including cell proliferation, apop
208 echanism and plays crucial roles in numerous biological processes, including embryonic development, i
209 Collective cell migration underlies many biological processes, including embryonic development, w
210 th several important molecular functions and biological processes, including metabolic process, respo
212 is an evolutionary driving force in diverse biological processes, including the adaptive immune syst
213 2O2) is a highly relevant metabolite in many biological processes, including the oral microbiome.
214 is essential in a myriad of eukaryotic cell biological processes, including the synaptic transmissio
215 ta1 (TGF-beta1) is a master cytokine in many biological processes, including tissue homeostasis, epit
216 dge to elucidate the roles of TFs in various biological processes, including tissue type maintenance
219 e definitions of 'drought tolerance' and the biological processes involved in drought responses.
221 orms existing multiset methods when the true biological process is well approximated by continuous ac
223 us valuable insights into cancer biology in biological process level and guide the precision treatme
224 ounds, diseases, genes, anatomies, pathways, biological processes, molecular functions, cellular comp
225 cription factors contributing to three major biological processes: Notch pathway, down-regulated Hedg
226 opy provides direct insight into fundamental biological processes occurring at length scales smaller
229 ally, a latent trajectory corresponding to a biological process of interest-such as differentiation o
231 ghting examples wherein the fundamental cell biological processes of protein synthesis and degradatio
232 ll not only further our understanding of the biological processes of this plant model but also of oth
236 ean Water Framework Directive, TPs formed in biological processes or during ozonation, agonistic/anta
237 s anywhere to search for markers of specific biological processes or therapeutic targets for specific
239 rom them, have become key tools for modeling biological processes, particularly in cell types that ar
240 were over-represented, suggesting that these biological processes play a key role in antigenicity.
242 ccessful applications to a number of complex biological processes-protein conformational transitions,
243 Transcription factors (TFs) drive various biological processes ranging from embryonic development
244 ized alkenes underpins a plethora of complex biological processes ranging from natural product biosyn
247 triplets are highly enriched in fundamental biological processes related to environmental changes.
248 inoid signaling systems in the regulation of biological processes related to the pathogenesis of PTSD
249 ers and a portion of these were enriched for biological processes relevant to drug metabolism for FBZ
250 integrity via repair of DNA damage is a key biological process required to suppress diseases, includ
251 tions in many immune-related transcripts and biological processes resulted in reduced production of I
253 owed that MALAT1 was highly involved in five biological processes: RNA processing; gene transcription
254 Gene Ontology terms, including 14 groups in biological process, seven in cellular component, and six
255 es a multidimensional workspace to elucidate biological processes, signalling pathway crosstalk, and
256 ine deaminases involved in various important biological processes such as antibody diversification/ma
257 echanistic and functional aspects of several biological processes such as autophagy, inflammation, pr
260 tructure of the genome plays a vital role in biological processes such as gene interaction, gene regu
261 ve proteins and thereby initiate fundamental biological processes such as photosynthesis, vision and
262 poses thermodynamic and kinetic barriers to biological processes such as replication, transcription,
263 comb-group proteins control many fundamental biological processes, such as anatomical development in
264 dding yeast colonies with cell-type specific biological processes, such as budding, mating, mating ty
265 of these ALS genes are enriched for several biological processes, such as cell death, lipid metaboli
266 tegrated model outputs incorporate important biological processes, such as competition, physiological
267 bundles that generate contractile forces for biological processes, such as cytokinesis and cell migra
268 ibutions to the understanding of several key biological processes, such as embryonic development, dis
269 ssential phenomenon in numerous chemical and biological processes, such as intricate signaling cascad
272 enerated signaling network and gene ontology biological process term grouping, we identify potential
274 mesenchymal transition (EMT) is an important biological process that has been implicated in cancer me
275 the LOF phenotype must take into account the biological process that is targeted by each method.
277 demonstrate that these signatures represent biological processes that are perturbed by the experimen
278 ith a range of positive health behaviors and biological processes that are potentially protective aga
279 ated males revealed coherent responses, with biological processes that are upregulated (testis-specif
280 or interaction network, linked to downstream biological processes that can be analysed to uncover rel
281 ty are two key variables that can affect the biological processes that contribute to marsh surface el
282 implications for intracellular pathways and biological processes that could be affected by these mod
284 tanding of the important native and acquired biological processes that dictate the fate of nanomedici
285 overy analysis to IPF and describes distinct biological processes that further inform disease biology
287 S) cells are a popular model system to study biological processes, though uncovering recessive phenot
288 rbohydrates play important roles in numerous biological processes through their interactions with var
289 axes can be used to advance research on the biological processes through which poverty affects child
291 ial to be of physiological relevance for the biological process underlying the development of chronic
292 d individual conserved modules with distinct biological processes underlying wood formation, such as
294 biology approach for characterizing complex biological processes using a unique multidimensional fra
295 is of these miRNA targets, 12 immune-related biological processes were found to be significantly enri
296 lyses indicated that a wide variety of vital biological processes were preferably targeted by lysine
297 ncRNA co-expression networks, unraveling key biological processes where lincRNAs might be involved du
298 interactions play crucial roles in multiple biological processes, while these interactions are signi
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