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1 r depression and other psychiatric disorders by altering a network of functionally related stress-sen
2 regulates class-switch recombination ex vivo by altering activation-induced cytidine deaminase expres
3 en successfully used for tissue regeneration by altering activity of various cells involved in period
4  such as hypoxia, can affect tumor behaviors by altering Akt activation, which has a critical role in
5 lling energy dissipation and defect dynamics by altering alloy complexity may pave the way for new de
6 fluences alpha-synuclein inclusion formation by altering alpha-synuclein levels.
7 Despite the ability to revamp axon outgrowth by altering an increasing number of extracellular and in
8 ple components of ILC2 metabolic programming by altering arginine catabolism, impairing polyamine bio
9 nknown effects on the central nervous system by altering astrocyte function.
10 deficiency causes primary autoimmune disease by altering B cell development, selection, and central t
11 cing early Ag-specific B cell expansion, not by altering B cell development.
12 , Elk1, Etf1 or Myb attenuated B cell action by altering B cell receptor pathways and MHCII cell surf
13 e medications may affect fetal drug exposure by altering BCRP expression in human placenta.
14 ood glucose and increase insulin sensitivity by altering bile acid signaling pathways.
15  upon entry to mitosis) to regulate function by altering biomolecular complex concentrations.
16 he hypothesis that ET-1 inhibits BK channels by altering BKalpha and beta1 surface trafficking in myo
17 ll membranes, halts liver cancer cell growth by altering both energy production and mammalian target
18      Transcriptional output can be modulated by altering burst fraction or burst size, but how regula
19  that regulate photoreceptor synaptic output by altering Ca(2+) channel activity.
20  selective pressure that promotes cell death by altering canonical signaling pathways.
21 the heart and contributes to QT prolongation by altering cardiac sodium current properties (INa).
22 17 function drastically reduces plant growth by altering cell division activity in both shoot and roo
23 roteins sensitizes M. tuberculosis to stress by altering cell wall integrity.
24                                              By altering cells' resting potentials using other ion tr
25  with binding to specific membrane lipids or by altering cellular structures such as membrane microdo
26 scription of thermogenic genes in adipocytes by altering chromatin accessibility and inhibiting ATF a
27 gesting that these lncRNAs promote induction by altering chromatin architecture.
28 ling enzymes that control gene accessibility by altering chromatin compaction or nucleosome positioni
29 suggests that CNVs may repress recombination by altering chromatin structure in meiosis.
30  and, as a result, activates gene expression by altering chromatin structure.
31 tions in PRSS1 cause hereditary pancreatitis by altering cleavage of regulatory nick sites by chymotr
32  ) of sudden changes in photosynthetic rates by altering CO2 concentration in plots subjected to +200
33 mate warming may affect biological invasions by altering competition between native and non-native sp
34                       Our data suggest that, by altering cristae morphology, fusion in TM cells confi
35 igestion efficiency, which is not alleviated by altering denaturation/digestion stringency and indica
36 illars can manipulate attendant ant behavior by altering dopaminergic regulation and increasing partn
37 interactions influence protein folding rates by altering dynamics and not activation free energies.
38 tially diminishes several ecosystem services by altering ecosystem functioning and stability, especia
39  predispose an individual to type 2 diabetes by altering either hepatic or extrahepatic insulin actio
40 xpression directly regulates Na(+) transport by altering ENaC activity in the apical membrane.
41 WD1 modulates the BR signal transduction not by altering ER quality control or protein abundance of B
42    MSI2 influenced breast cancer cell growth by altering ESR1 function.
43 g to microtubules or the 3R:4R isoform ratio by altering exon 10 splicing.
44 ial chemoprevention may affect this response by altering exposure to malaria antigens.
45 association studies may exert their function by altering expression of eQTL genes (eg, LDLR and PCSK7
46 e adaptation to changing climatic conditions by altering expression.
47 he low-frequency state of a cortical circuit by altering extracellular glutamate, and therefore play
48 op-down attention increases coding abilities by altering firing rates and rate variability.
49  that dexamethasone may serve to enhance EXT by altering Fkbp5-mediated glucocorticoid sensitivity vi
50                                              By altering fluxes of heat, momentum, and moisture excha
51 that wind patterns impact incubation success by altering foraging movement.
52 ragmentation may intensify fires in Amazonia by altering forest microclimate and fuel dynamics.
53 ctivation of tumor suppressors, for example, by altering gene copy number amplitude.
54 shown that LKB1 suppresses tumor progression by altering gene expression in the tumor microenvironmen
55 ancer cells to platinum drugs, in large part by altering gene expression patterns related to DNA repa
56 hisms in modulating hepatic lipid deposition by altering gene transcription and controlling lipid com
57 nism of trade-off in resistance across drugs by altering genetic interactions.
58 sponds to deoxycholate, a component of bile, by altering global gene transcription in a manner consis
59        CD8(+) T cells abolish the resistance by altering glutathione and cystine metabolism in fibrob
60  reaction, such that damage can be inhibited by altering grain size and cation valence variability.
61 Plants sense temperature changes and respond by altering growth and metabolic activity to acclimate t
62 vivo and in vitro generates metabolic memory by altering H3K36me2 and H3K27me3 on the promoter of FOX
63         Livestock grazing can affect insects by altering habitat quality; however, the effects of gra
64 del in which FUT2 rs601338 influences holoHC by altering haptocorrin glycosylation, whereas B12 bound
65 rail health, outcomes potentially modifiable by altering health behaviors and/or treating endocrine a
66  shuttling growth factors to the nucleus and by altering histone acetylation in host cells.
67 downregulates the DNA damage (DD) sensor ATM by altering histone methylation, leading to impaired DNA
68                                              By altering host nutrient assimilation/excretion flexibi
69 rain injury may interrupt menstrual patterns by altering hypothalamic-pituitary-ovarian axis function
70 in non alcoholic fatty liver disease (NAFLD) by altering inflammatory signalling in RSF.
71 efenses directly as endophytes or indirectly by altering insect physiology.
72 lmitoylation, which enhance channel activity by altering interactions of the channel with the plasma
73 assium depolarizes the postsynaptic afferent by altering ion permeation through hyperpolarization-act
74 ion also depolarized the postsynaptic neuron by altering ion permeation through hyperpolarization-act
75 motherapeutic agent paclitaxel triggers CIPN by altering IP3 receptor phosphorylation and intracellul
76    This alginate-AuNPs THI system is tunable by altering its composition to suit different time-tempe
77 material for targeted delivery of probiotics by altering its digestion.
78 se decreases the lysosomal metabolism of APP by altering its endocytic vesicular transport.
79  intrinsic regenerative capacity of the host by altering its environment, whether with cell injection
80 role in regulating methionine concentrations by altering its flux through the transmethylation, trans
81 can be easily programmed to target new sites by altering its guide RNA sequence, and its development
82 lation of CDK5 repressed AKT phosphorylation by altering its intracellular localization, immediately
83  compensate for associated metabolic demands by altering its respiration rate.
84  the output period of the segmentation clock by altering its spatial pattern.
85 ritional and metabolic signals in the mother by altering its structural and functional phenotype, whi
86 poral scaling influence lifespan exclusively by altering kr.
87 ndent glucose flux decreases nutrient stress by altering lipid and amino acid metabolism in skeletal
88 ENaC abundance and function at least in part by altering luminal HCO3(-) and ATP concentrations.
89 l adaptations to hypobaric hypoxia, possibly by altering lung function.
90 ssion affects starch degradation indirectly, by altering matrix organization and, thus, accessibility
91      Conditioning the brain-dead organ donor by altering metabolism could be a novel approach to amel
92 t MYC mediates its oncogenic effects in part by altering mevalonate metabolism in glioma cells, sugge
93 n aged mouse brain impedes cognitive ability by altering microglia transcriptome and limiting Mef2C,
94 uitment of monocytes to atherosclerotic foci by altering monocyte biophysics.
95 iate state can contribute to the onset of AD by altering multiple cellular pathways involved in ApoE-
96 roids modify the course of brain development by altering neurogenesis, cell death, migration, differe
97 l incontinence (FI) in women after menopause by altering neuromuscular continence mechanisms.
98 at has been shown to improve stroke recovery by altering neuronal activity of the target area.
99 esistance in cancer cells can be deregulated by altering NO homeostasis.
100                                              By altering nuclear size, we previously showed that the
101  VP40 SDP P85T interferes with VP40 function by altering octamer formation.
102 reduced silencing suppressor activity of p38 by altering one of two GW motifs that are required for p
103  reprogramming efficiency when overexpressed by altering OSK targeting, somatic-enhancer inactivation
104 kin infection contributes to immunopathology by altering peptidoglycan structure.
105                                        Thus, by altering pH, we showed that only non-ionised querceti
106 ce or manipulate insect behavior and fitness by altering plant quality and defense.
107  less severe Becker muscular dystrophy (BMD) by altering pre-mRNA splicing to restore an open reading
108 ding carbon storage capacity, in myriad ways by altering predation risk.
109 oncentration-dependent) effects on cognition by altering prefrontal cortical attractor dynamics accor
110  that PIs contribute to these adverse events by altering progesterone levels.
111 pecies, regardless of their charge, possibly by altering properties of the bacterial cell wall.
112             HIV-1 maturation can be impaired by altering protease (PR) activity, the structure of the
113 region of helices A/C/G/H/I and seems to act by altering protein dynamics rather than binding prefere
114 ffect protein structure and function, either by altering protein stability or interactions with its p
115 onstrate that JNK signaling is not perturbed by altering Pvr receptor tyrosine kinase activity.
116  triggers cardiomyopathy and premature death by altering regulation of sarco/endoplasmic reticulum ca
117 seases, not by driving initial symptoms, but by altering repair mechanisms.
118 g survival and reproduction, and indirectly, by altering resources.
119 latory elements that control gene expression by altering RNA structure upon the binding of specific m
120 oot length proliferation was mainly achieved by altering root architecture, but not root morphology.
121  to improve the acquisition of this nutrient by altering root development under shortage conditions.
122 NX1 activity either positively or negatively by altering RUNX1-mediated transcription, promoting prot
123                                              By altering S motifs in CLB19 and another editing factor
124 R enzymes that diversifies the transcriptome by altering selected nucleotides in RNA molecules.
125 henotype into that of non-CMS and vice versa by altering SENP1 levels.
126 raction between SMAD3 and vitamin D receptor by altering SMAD3 ubiquitination.
127 rtulacaceae) using two methods: in 2011-2013 by altering snow pack (snow-removal vs. control treatmen
128 y resistance could potentially be controlled by altering soil pH.
129 termite nests impart substrate heterogeneity by altering soil properties, thereby enhancing plant gro
130 ffect the assembly of ecological communities by altering species' spatial distribution patterns, but
131                                              By altering spectrotemporal characteristics of the maske
132                                              By altering surface biogeophysics, anthropogenic land us
133 ling that contributes to behavioral deficits by altering synaptic connections, and RhoA-ROCK inhibiti
134  may influence the function of remote organs by altering systemic cytokine levels.
135 hat induce an immune response against tumors by altering T-cell regulation have increased survival ti
136 l Ubiquitin-like Modifier (SUMO) binding and by altering TDG sumoylation through SUMO and SUMO protea
137 C proliferation and neuronal differentiation by altering TGF-beta signaling.
138 xin indoxyl sulfate can be modulated in vivo by altering the abundance of bacteria harboring tryptoph
139 ion of Hedgehog signaling leads to steatosis by altering the abundance of the transcription factors G
140  Attention is believed to enhance perception by altering the activity-level correlations between pair
141 shown to propagate down through the food web by altering the adaptive landscape for other species and
142                   E3 regulates PDHc activity by altering the affinity of pyruvate dehydrogenase kinas
143 g site on the capsid protein (CP), and works by altering the angle between capsomers.
144 ependent and androgen-independent phenotypes by altering the AP-1/androgen receptor regulatory circui
145  crucial roles in gene expression regulation by altering the architecture of chromatin.
146 that neutrophils could regulate inflammation by altering the balance between PG-G and PG levels in vi
147 dulates spatial integration in visual cortex by altering the balance of inputs that generate neuronal
148                                              By altering the balance of tensions and pressures within
149 s and practices change the feedbacks in CASs by altering the behavior of different system components
150                                              By altering the beta-sheet peptide graft density and con
151 omain of decorin that controls muscle growth by altering the binding capacity for myostatin.
152  by divergence in cis-regulatory elements or by altering the binding specificity of transcription fac
153  living in contaminated coastal environments by altering the bioavailability and potentially toxicity
154 negatively contribute to disease progression by altering the bioavailability of molecules important t
155 in barrier; it affects susceptibility to HIT by altering the brain concentration of haloperidol.
156 acting with the receptor, and/or indirectly, by altering the bulk properties of the membrane.
157  affects the strength of cardiac contraction by altering the Ca(2+) transient as a response to physio
158 hicken embryos disrupted somite segmentation by altering the CDH2-dependent epithelialization of PSM
159 ated virus (AAV) to specific types of cells, by altering the cell-surface receptor it binds, is desir
160 asome inhibitor sensitivity of myeloma cells by altering the cellular proteasome capacity versus prot
161 nce tissue-specific differentiation of hESCs by altering the cellular response to morphogens.
162 (5)]enkephalin (DAMGO)-related glycopeptides by altering the charged residues of the amphipathic heli
163 nd outgassing can be detrimental to a system by altering the chemical and mechanical properties of ma
164  stability and function of cellular proteins by altering the chemical environment of the cell.
165 gh this point has traditionally been reached by altering the chemical structures of donors and accept
166 directly or indirectly regulate their influx by altering the chemotactic milieu in the islets.
167                                     Finally, by altering the chromatin state in the Arabidopsis chrom
168 ring the trafficking of the viral genome but by altering the chromatin subtype localization relative
169                                              By altering the community structure of the gut microbiom
170 h oil-enriched diets disfavor AA oxygenation by altering the composition of the FA pool in which PGHS
171 gger Streptomyces exploratory growth in part by altering the composition of the growth medium, and St
172 g strength, the cycle ratio can be regulated by altering the concentration of NaPy.
173 properties of these molecules can be changed by altering the configuration stereocenters within the b
174 gh direct interactions with the substrate or by altering the conformation of the residues surrounding
175 Further, they confer antiestrogen resistance by altering the conformational dynamics of the loop conn
176 Here, we provide evidence for this mechanism by altering the contractile activity of the tubular musc
177  modify the buoyant density of the particles by altering the copolymer ratio while maintaining their
178 g some that appear to affect gene expression by altering the copy number of intergenic regulatory reg
179 ent loading may destabilise these mutualisms by altering the costs and benefits each partner incurs f
180  the possibility of changing phonon dynamics by altering the crystal through acid etching.
181                        Finally, we show that by altering the currents delivered to a set of immobile
182 ane (PFDMS) diblock copolymers can be varied by altering the degree of polymerization of PFDMS, and a
183 MH indirectly shape small-mammal habitat use by altering the density and distribution of understorey
184 this transformation occurs can be controlled by altering the design of individual units and the array
185 elf-assembly of DNA functionalized emulsions by altering the DNA grafted strands.
186 r a polypeptide conformation can be achieved by altering the donor-acceptor properties of side-chain
187 ct on treatment resistance could be tempered by altering the dosing schedule of systemic chemotherapy
188 y discriminate between live and dead targets by altering the duration of conjugation.
189 odulates the activity of the embedded kinase by altering the dynamics of a glycine-rich motif that is
190 of monocytes to inflamed endothelial surface by altering the dynamics of adhesion receptors.
191 f size exclusion but that of ion dehydration by altering the electric permittivity of water-filled ca
192  threshold for laser initiation was achieved by altering the electronic properties of the ligand scaf
193 ound to play crucial roles in catalyzing OER by altering the electronic structures of the adjacent ca
194 resentation of behaviorally relevant stimuli by altering the encoding properties of single receptive
195 gest a role for HIV in impairing TB immunity by altering the equilibrium of M. tuberculosis-specific
196 ave significant roles in cancer pathogenesis by altering the expression of key tumorigenic or tumor-s
197  blood flow (d-flow) induces atherosclerosis by altering the expression of mechanosensitive genes in
198 ese cell types promote cancer progression is by altering the expression of microRNAs (miRNAs), small
199 s-eQTLs regulate expression of distant genes by altering the expression of nearby genes (cis-eGenes).
200 , proliferation, and differentiation of OPCs by altering the expression of regulatory cytoplasmic and
201 s as part of protein complexes or indirectly by altering the expression or activities of some cellula
202 We show that miR-122 enhances HCV RNA levels by altering the fraction of HCV genomes available for RN
203 OFs) amenable to significant property tuning by altering the functional groups on the imidazolate lin
204 noncoding RNAs (lncRNAs) may reprogram cells by altering the gene expression pattern.
205                                 Furthermore, by altering the gene regulatory sequences on the Rubisco
206 ironment by regulating mRNA synthesis, often by altering the genomic sites at which RNA polymerase in
207 o tune the onset of the crumpling transition by altering the geometry and topology of the sheet itsel
208 eable and can be shifted to proximal regions by altering the growth temperature.
209 tentials of these copolymers were fine-tuned by altering the heterocycle sequence, and atomic force m
210 that target different regions of a sgRNA and by altering the hybridization free energy of the sgRNA-a
211 mpact on protein folding and oligomerization by altering the hydrogen bond network.
212 also affect the antigenicity of cancer cells by altering the immunopeptidome.
213  rate constants of the adaptive processes or by altering the initial number of rapidly but non-select
214 bacterial adaptation to nutrient deprivation by altering the initiation properties of RNA polymerase
215 diates the response to nutrient deficiencies by altering the initiation properties of RNAP.
216 LPFC rTMS affects punishment decision making by altering the integration of information about culpabi
217 tein facilitates exit from mitosis, possibly by altering the intracellular distribution of cyclin B1.
218                This can be done using drugs, by altering the ionic constituency of the bathing medium
219                   Pathways could be switched by altering the ionic strength.
220 ermanium nanostructures can be tuned to 5.3% by altering the lattice constant of the matrix material,
221 mportant predator-prey interactions, in part by altering the location and size of spatial refugia for
222 nal synaptic plasticity in mice, most likely by altering the metabolism of BACE1 substrates.
223 ma in a range of 0.08-1.02 mN/m was achieved by altering the Mg(2+) concentration in solution, which
224  The mean length of the fibres can be varied by altering the micelle concentration, reaction stoichio
225 o the epidermal antibacterial defense system by altering the microbiome.
226 ing the primary target of a Th17 response or by altering the microbiota community structure.
227                                              By altering the mole ratio of sodium citrate/sodium algi
228 gnaling, but also improving cardiac function by altering the myofilament-Ca(2)(+) response via beta-a
229 rotein SynSerB3 rescues the deletion of serB by altering the natural regulation of the His operon.
230 El Tor biotype isolates gain CAMP resistance by altering the net charge of their cell surface through
231 en proposed to influence aggressive behavior by altering the neural processing of facial threat signa
232 at H19 induces a strong osteogenic phenotype by altering the NOTCH1 pathway.
233 the transcriptional activity of their genome by altering the nucleosome core particle through multipl
234 icts a stiffness optimum that can be shifted by altering the number of active molecular motors and cl
235 e antiretrovirals ranging from mug/d to mg/d by altering the orifice design, drug loading, and mass o
236 reasing the relative volume of airspace) and by altering the pattern of airspace distribution within
237  modulating immune components, specifically, by altering the phenotype of macrophages.
238  significantly inhibited autophagy induction by altering the phosphorylation status of mammalian targ
239                                              By altering the physical capacity and outlook of fishers
240 ng-term changes in coastal plant communities by altering the physical conditions that affect ecosyste
241 nisms that may promote hemin release from Hb by altering the position of its F helix.
242 e and other sleep behaviors during evolution by altering the properties of conserved arousal circuits
243 ed cell cycle arrest, apoptosis of ATC cells by altering the protein expression of cancer-related gen
244 e speed of synaptic development in two ways: by altering the rate constants of the adaptive processes
245 ggest that Snf1 may influence mRNA stability by altering the recruitment activity of the transcriptio
246 states in surface coordination architectures by altering the redox properties of organic ligands.
247          We further demonstrated its utility by altering the regulatory topology of the nisin pathway
248  the functioning of mycorrhizal associations by altering the relative degree of nutrient and carbohyd
249 own pair of 5' UTR inverted repeats that act by altering the relative fimA levels to control phase va
250 croenvironment toward an antitumor phenotype by altering the relative proportion between protumor and
251 mbionts therefore affect community structure by altering the relative success of different natural en
252 iven applied load, can be manipulated solely by altering the resistance to rotational motion of the h
253  that scaling is achieved, at least in part, by altering the sensitivity of the target cells to SHH a
254 e phenology can influence parasite epidemics by altering the sequence of infection and interactions a
255 creasing the [Cl(-) ]o from 140 to 30 mm and by altering the sequence of the first intracellular loop
256 these mutations damaged the activity of ACPT by altering the sizes and charges of key amino acid side
257 g photoreduction kinetics indirectly, likely by altering the solid:liquid water ratio.
258 d to exploit the pH of the secretory pathway by altering the spatial juxtaposition of titratable grou
259 n alters hPHPT1 activity, then it will do so by altering the stability of an intermediate state.
260 s and their concentration can be manipulated by altering the starting materials, synthesis conditions
261                                              By altering the status or abundance of the Bacteroides t
262 se of sex chromosome evolution, for instance by altering the strength of sexually antagonistic select
263 l barrier properties and mucosal homeostasis by altering the structure and function of epithelial int
264 2+) binding stimulates its open conformation by altering the structure of transmembrane helices that
265 tion of cell migration over the wounded area by altering the subcellular distribution of F-actin.
266  ankyrin-G regulates canonical Wnt signaling by altering the subcellular localization and availabilit
267 promote cell proliferation and tumorigenesis by altering the subcellular localization of an essential
268  by which Shigella promotes its own invasion by altering the sumoylation state of RhoGDIalpha, a mast
269 g pregnancy may impact offspring development by altering the temporal and spatial dynamics of the mat
270 th water changes the mechanism for catalysis by altering the thermodynamics for hydride transfer to C
271 hat indirectly affect termination efficiency by altering the time window in which termination can occ
272 he anchoring conditions of the substrate, or by altering the topography of the substrate's surface; s
273  ZIKV infection affects viral and human RNAs by altering the topology and function of N(6)-adenosine
274 cking alter integration site preference, not by altering the trafficking of the viral genome but by a
275 ro Spermine also inhibited biofilm formation by altering the transcription of the vps genes involved
276                                  Critically, by altering the two interacting loops of gamma2 and gamm
277  progress, the level of difficulty increased by altering the virtual ball mechanics and the gain betw
278  a capsid-targeting small molecule inhibitor by altering the virus's dependence on host factors norma
279 rganic compounds emitted into the atmosphere by altering the way in which ambient organic vapors inte
280 unostimulatory small molecules and biologics by altering their co-localization, biodistribution, and
281 rsity and respond to microenvironmental cues by altering their functional properties and secretory pr
282 bola virus and other filoviruses, presumably by altering their fusion with the endolysosome and deliv
283  exerts a potent influence on fusiform cells by altering their intrinsic properties, which may enhanc
284 ons of nucleoid and cytoplasmic localization by altering their length and/or translation.
285 umulated ROS disrupts mitochondrial function by altering their membrane polarity in floral tissues.
286 lls of even phylogenetically distant species by altering their membrane potential.
287 (VPpp neurons) counter osmotic perturbations by altering their release of vasopressin, which controls
288 d to mechanical changes in their environment by altering their spread area, morphology, and gene expr
289 ate might be expected to influence body size by altering thermoregulation, energetics or food availab
290 duced loss of BBB integrity and permeability by altering tight junction integrity, promoting the disp
291 e forced to remodel their signaling pathways by altering transcription, translation, and post-transla
292 of switching on and off the flagellar system by altering translational fidelity, which may serve as a
293 ion causes a range of neurological disorders by altering transmembrane ion fluxes, neuronal or muscle
294 le fronts in this mesenchymal tumor subtype, by altering tumor growth, chemosensitivity and metastati
295  have a critical role in asthma pathogenesis by altering type 17 inflammation, and thus interfering w
296 suggested to function in corneal angiostasis by altering VEGF signaling; however, the mechanism(s) un
297 ms that dominate the landscape in many areas by altering water budgets.
298 one to identify the minimal number of edges, by altering which one can efficiently improve or paralys
299 synthesis during exercise but rather adapted by altering whole body substrate utilization.
300 barrier function via the H19-encoded miR-675 by altering ZO-1 and E-cadherin expression posttranscrip

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