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1  of uncertainty reported in previous studies by modifying (1) the shape of the typical flight path, (
2 al nanostructured electrodes were fabricated by modifying 100 mum gold wires with 17 nm gold nanopart
3 hesized Trex2 participates in DNA DSB repair by modifying 3' ends.
4 omain protein that regulates gene expression by modifying 3D chromatin structure.
5              Here, we extend this capability by modifying a 40 x 18 mum(2) cantilever into one termin
6                         We created this tool by modifying a commercial 8-channel pipet using machined
7 dosage disrupts cortical circuit development by modifying a critical molecular signaling pathway via
8  constriction in this homopentameric protein by modifying a critical pore residue one subunit at a ti
9 ulatory range of the Rnt1p control elements, by modifying a critical region for enzyme binding to its
10  as a transcriptional activator or repressor by modifying a diverse set of substrates.
11                 The biosensor was fabricated by modifying a gold electrode with gold nanoparticles (A
12 ctronic structure of the organoboron species by modifying a heteroaromatic component in the conjugate
13                                              By modifying a highly conserved adenosine A2503 in 23S r
14 giocarcinoma cell line CC-SW-1 was developed by modifying a NeutrAvidin-biotin system.
15                                              By modifying a previous assay to use recombinant tubulin
16           The heart failure model is derived by modifying a previously validated electrophysiology mo
17         We developed new mathematical models by modifying a proposed stochastic birth process to inco
18 ) for the non-enzymatic detection of glucose by modifying a screen-printed carbon electrode with coba
19                                              By modifying a spider silk to be conductive and transduc
20 conducting solid electrolyte is demonstrated by modifying a well-known negative photoresist, SU-8, wi
21 affinity chromatography method was developed by modifying a zonal elution method.
22 olling internal structure of cell aggregates by modifying aggregation kinetics is a potential strateg
23                                              By modifying amino-groups, glycation interferes with fol
24 either by gating reward prediction errors or by modifying an implicit representation of motor compete
25  and not fully recognized evolutionary roles by modifying and biasing natural selection.
26 recipes, both by creating new algorithms and by modifying and recombining successful recipes develope
27                          We demonstrate that by modifying array synthesis procedures to accommodate t
28 ted using self-assembled monolayer principle by modifying Au electrode with cysteamine (Cys) and immo
29 ression of surface IgM but not IgD BCRs, and by modifying basal calcium levels.
30 ert a cumulative effect on platelet function by modifying basic platelet parameters, such as mean pla
31   The response aims to reduce this imbalance by modifying behavior and intrinsic body systems to dire
32 logists predicted that parental care evolves by modifying behavioural precursors in the asocial ances
33                                              By modifying beta-catenin activity, we force cells withi
34 er to determine the content of consciousness by modifying both taste perception and later action.
35 ccounted for most of the correction achieved by modifying both the domain and the interface.
36 us (five out of six) can impact hypertension by modifying BP and renal phenotypes.
37  band structure can be continuously tailored by modifying cadmium content or temperature.
38  a normoxic or hypoxic environment, possibly by modifying calcium metabolism.
39 and which respond to environmental variables by modifying Callocation belowground, are needed for bet
40                                              By modifying candidate SNPs in transgenic flies, we show
41 sor was developed to detect anticancer drugs by modifying carbon paste electrodes with glutathione-s-
42 ar-related morbidity and mortality, possibly by modifying cardiac structure and function, yet firm ev
43 DR by promoting inappropriate S phase entry, by modifying cellular DDR factors directly, or by uninte
44 s epigenetically regulate cellular processes by modifying chromatin and influencing gene expression.
45 xpression, a master driver of cell stemness, by modifying chromatin architecture at the Sox2 promoter
46 PRC2) plays an essential role in development by modifying chromatin but what this means at a cellular
47 b protein family and represses transcription by modifying chromatin organization at specific promoter
48 ive role in Pol I transcription, potentially by modifying chromatin structure in the rDNA repeats.
49 ssory proteins that antagonize transcription by modifying chromatin structure.
50 G) proteins mediate heritable gene silencing by modifying chromatin structure.
51 ugh these problems can be partially overcome by modifying classical theories for colloidal interactio
52 oercion of human primed embryonic stem cells by modifying culture conditions or through transgenic mo
53 t, we standardized the size of cardiospheres by modifying culture conditions.
54 ediate cellular responses to the environment by modifying cysteines of signaling proteins.
55  is a negative modulator of HSC self-renewal by modifying cytokine responses and expression of genes
56                    Reducing lung cancer risk by modifying diet is highly desirable.
57 to adapt to similar environmental challenges by modifying different sets of genes.
58 the transcriptional activity of the receptor by modifying DNA and recruiting essential transcription
59 lymorphism (MTHFR 677C>T) may influence risk by modifying DNA methylation.
60 or ultrasensitive and selective DA detection by modifying DNA-aptamers on a multiple-parallel-connect
61 ns to tune physical properties in thin films by modifying electronic structure.
62 al applications can bridge these categories, by modifying energy crops properties, or analysing circu
63 nterest in combating these diseases not only by modifying energy intake and lifestyle factors, but al
64 receptor-induced apoptosis of infected cells by modifying FADD in an irreversible manner.
65 ization of selectivity for the fungal enzyme by modifying functional groups that interact with struct
66 g cell functions can be modulated via opsins by modifying fundamental nonlinear optical properties of
67 ormance, and might offer therapeutic benefit by modifying fundamental pathophysiology in pulmonary va
68 mple, tumors can prevent T cell infiltration by modifying gene expression in the endothelial cells an
69 er, the in vivo application of this approach by modifying genomic loci is uncommon, partly due to its
70 er with Herpes Simplex Virus (HSV-1) vectors by modifying glycoprotein C (gC) to replace the heparin
71 lase that regulates hepatic lipid metabolism by modifying histones and transcription factors.
72    Microbiota regulate intestinal physiology by modifying host gene expression along the length of th
73 shows the possibility of reducing water uses by modifying households' behavior to encourage healthier
74 e spin energy-levels in a single quantum dot by modifying how spins sense magnetic field.
75 PS derivatives (AMPDs); they are synthesized by modifying hydrophilic PSs with a variety of hydrophob
76 t opportunities for breast cancer prevention by modifying individual estrogen metabolism profiles thr
77 osition of liver regulates insulin signaling by modifying insulin receptor translocation into membran
78 ng protein (IGFBP)-1 influences fetal growth by modifying insulin-like growth factor-I (IGF-I) bioava
79  through plant-mediated indirect effects, or by modifying interactions among species.
80                Cell fate can be reprogrammed by modifying intrinsic and extrinsic cues.
81                Increasing the density of Env by modifying it in various ways has met with limited suc
82  an energy storage function are demonstrated by modifying its counter electrode with a poly (vinylide
83 e possibility to adjust the pH of the sample by modifying its exposure time with the membrane by vary
84 nding to Miro1 halts mitochondrial transport by modifying its interaction with kinesin-1 whereas mito
85 ular levels of polyP regulates Top1 activity by modifying its polyphosphorylation status.
86 As with most organisms, MTB adapts to stress by modifying its transcriptional profile.
87                                              By modifying KinTek Explorer software, we present a new
88 amined ways of reducing their reactogenicity by modifying lipid A, the endotoxic part of LPS, through
89 tion and loss generated leaf shape diversity by modifying local growth patterns during organogenesis.
90                              We propose that by modifying localized cation balance and pH, these tran
91 ia drives variable host type I IFN responses by modifying LPS in a subset of bacteria.
92 ins could promote catastrophe events in part by modifying microtubule tip structures.
93  available package, miRDeep-P, was developed by modifying miRDeep, which is based on a probabilistic
94  Genomic variants can alter miRNA regulation by modifying miRNA target sites, and multiple human dise
95  Gaucher disease and other genetic disorders by modifying molecular chaperone and protein degradation
96 tive effect on human colorectal cancer cells by modifying molecules involved in either cell cycle arr
97  coordinates movements and maintains balance by modifying motor commands as a function of sensory-mot
98 se data provide new insights into how MAP65, by modifying MT mechanical properties, may regulate the
99  evade pneumococcal conjugate vaccines (PCV) by modifying, mutating, or deleting vaccine-serotype cap
100 ity is intensifying fungal disease dispersal by modifying natural environments and thus creating new
101 plex metabolic pathways have been engineered by modifying natural pathways and establishing de novo p
102 ly mitigates the endowment effect indirectly by modifying negative affective responses in the context
103 rtificially generating these activity states by modifying neuronal activity increases the reliability
104 s maintain heritable states of transcription by modifying nucleosomal histones or remodeling chromati
105 matin remodelers regulate chromatin dynamics by modifying nucleosome positions and occupancy.
106 nyltransferases that modulate Notch activity by modifying O-fucose residues on epidermal growth facto
107 easy modulation of the catalytic performance by modifying one of their building blocks and the develo
108 orating some forms of vestibular dysfunction by modifying ongoing primary vestibular input.
109  indirectly through aerosol formation and/or by modifying oxidant levels and thus changing the atmosp
110 ly inhibits the NF-kappaB activation pathway by modifying p65 and inhibiting IkappaBalpha kinase acti
111 ay data with a molecular interaction network by modifying per-gene differential expression P-values s
112 s to raise the yield potential of C(3) crops by modifying photosynthesis to the more efficient C(4) p
113                                              By modifying PKC phosphorylation at the AL site, cocaine
114 Here, we created a unique Polg animal model, by modifying polg within the critical and highly conserv
115        Four p-type polymers were synthesized by modifying poly(bisdodecylquaterthiophene) (PQT12) to
116                                              By modifying polymer compositions and cross-linking reag
117 ed library of over 50 compounds was prepared by modifying positions 5, 7, and 8 of the parent compoun
118 g the mammalian face to be remodelled simply by modifying postnatal growth.
119                                              By modifying pressure during UHPLC separation, it was po
120 s and policy options for reducing CVD burden by modifying preventable risk factors.
121 flats influenced shorebird foraging directly by modifying prey availability.
122 transcription in early development, possibly by modifying proteins important to maintain the ESC tran
123  possibility to modulate their stoichiometry by modifying reaction conditions.
124  tune the regiochemistry to a desired result by modifying reaction conditions.
125                          Furthermore, solely by modifying reactionware architecture, reaction outcome
126 tly in the membrane-interacting loops and/or by modifying residues away from the membrane-interacting
127 ment in vitro and in vivo, can be controlled by modifying, respectively, the hydrogel's elastic modul
128 NAs (sRNAs) control aspects of this coupling by modifying ribosome access or inducing degradation of
129 Inside the plant cell it suppresses immunity by modifying RNA-binding proteins including the glycine-
130                                              By modifying rules that govern activity-dependent synapt
131 at temperature influences evolutionary rates by modifying selective pressures rather than through its
132 g a unique strategy for treating the disease by modifying signal transduction pathways with small-mol
133 ring injection is a risk that can be reduced by modifying skin prep and injection practices.
134 fluence plant growth and community structure by modifying soil biota and nutrients.
135  change drivers can indirectly affect plants by modifying species interactions.
136 hat augment exposure to abiotic extremes and by modifying species interactions.
137 g the change to trophic interactions induced by modifying species.
138 e theory that antidepressants may indeed act by modifying specific neural dysfunctions correlated to
139 y of the urea-fluoride complexes are tunable by modifying substituents on the urea receptor.
140  colonization and dispersal can be inhibited by modifying surface chemistry.
141 Astrocytes interact dynamically with neurons by modifying synaptic activity and plasticity.
142 ped to enable fine-tuning of EWNS properties by modifying synthesis parameters.
143  that (1) saccadic adaptation can be induced by modifying target object size and (2) this gradual cha
144                  (99m)Tc-TCP-1 was generated by modifying TCP-1 with succinimidyl-6-hydrazino-nicotin
145 revents DNA damage-induced neurodegeneration by modifying the acetylation pattern of the tumor suppre
146 ay impact the outcome of catalytic reactions by modifying the acidities of the metal hydrides formed.
147 us may function to sort actomyosin processes by modifying the actin track affinity for specific myosi
148 ctly by generating DNA damage but indirectly by modifying the activities of DNA repair and genome sta
149 version of insulin molecules into aggregates by modifying the aggregation pathway.
150 rations in the shell and core solutions, and by modifying the AMC size.
151 as enhanced 5-fold by codon optimization and by modifying the amino acid sequence to be identical to
152 0 phosphorylation alters calcium sensitivity by modifying the AQP0-CaM interaction interface, particu
153 ectional wave pattern, which can be diverted by modifying the arrangement of the spinners within the
154 2 cells on top of the MEAs has been achieved by modifying the array with a poly(dimethylsiloxane) cha
155 ss other types of synapses might be obtained by modifying the artificial peptide neurotransmitter to
156                  Leucettine L41 does not act by modifying the autophagic flux of vesicles.
157    We can reproduce the exhaustion signature by modifying the balance of persistent stimulation of T-
158  distal dendrites of striatal output neurons by modifying the balance of two calcium sources, NMDARs
159                                              By modifying the beta-strand "stalk" of BLV1H12 with seq
160  large increase in granule cell excitability by modifying the biophysical properties of Kv4 channels
161 y from carbonate reservoirs can be increased by modifying the brine composition injected during recov
162 s of the reactants and products, rather than by modifying the catalyst.
163 induced volume transition could be modulated by modifying the chromatin compaction state and remodeli
164 ese effectors, NSD3, regulates transcription by modifying the chromatin microenvironment at Brd4 targ
165 ss in amphiphile membranes can be controlled by modifying the competition of long-range and short-ran
166 ctive strategy to constrain the change of pH by modifying the composition of electroporation buffer.
167 e mechanical conditions are often controlled by modifying the composition of the environment, separat
168 n the reaction were qualitatively identified by modifying the conditions to either promote the format
169 uantity of a signal amplification reagent or by modifying the configuration of the paper-based microf
170 the ability of DnaB to interact with primase by modifying the conformation of the NTD of DnaB.
171 atory and inhibitory neurons can be achieved by modifying the connectivity patterns between both type
172 cally regulate DNA damage signaling pathways by modifying the core histones as well as chromatin modi
173 ectric dipole moment which could be adjusted by modifying the crystal symmetry of the microwave absor
174 s may alter the ecological role of herbivory by modifying the defense strategies of plants and thus t
175  domains can enhance the Seebeck coefficient by modifying the density of states and/or providing type
176  reward-based learning mechanisms as well as by modifying the description of the decision problem, bu
177 the plasmonic resonance of the nanostructure by modifying the dielectric constant of the metal.
178 gulate a symmetry transition event in plants by modifying the direction of auxin transport.
179 d are shown to be dynamically reconfigurable by modifying the direction or polarization of impinging
180 ected from restriction endonuclease cleavage by modifying the DNA using a DNA methyltransferase.
181 We then show that this bias can be corrected by modifying the downward momentum flux to the surface.
182 -selective adenovirus vectors can be created by modifying the efficiency with which the viral DNA pol
183                                              By modifying the EIL peptide, we constructed peptide var
184 e developed several biosensors configuration by modifying the electrochemical sensor transducer: (a)
185 iosensor performance can be further improved by modifying the electrode surface to enhance electronic
186 ach for engineering drought stress tolerance by modifying the endogenous trehalase activity in Arabid
187 dynamics or induce alternative binding modes by modifying the ensemble of accessible conformations.
188 ts on the knowledge that animals communicate by modifying the environment in which they live, providi
189  intracellular molecular clock mechanisms or by modifying the environment of neurogenic niches, with
190 nd the previous features can all be reversed by modifying the environment.
191                                              By modifying the ester group and thus its susceptibility
192 utionary outcome of social interactions; and by modifying the evolutionarily stable expression of beh
193 d nutrient spatial patterns only indirectly, by modifying the extent of surface water/groundwater exc
194  increasing repulsion or reducing attraction by modifying the fluid medium or by using additives.
195  behavior following noxious heat stimulation by modifying the forward-to-reversal behavioral transiti
196 s to obtain follow-up CT scans were computed by modifying the frequency of CT scans with the hazard o
197 orms--Affymetrix Human Exon and Gene 1.0 ST--by modifying the fRMA probe-level model and extending th
198  the efficient secretion of S-layer proteins by modifying the general secretory pathway of B. anthrac
199  phenotype and spectrum of Trp53 mutant mice by modifying the genetic mechanisms underlying tumorigen
200 reduce the metabolic consequences of obesity by modifying the gut microbiota and preventing metabolic
201                                              By modifying the HA matrix, Tnfip6 (TNF-alpha-induced pr
202              Transcutaneous DNA immunization by modifying the hair follicle cycle may hold a great pr
203 tor cells, thus amplifying liver damage, and by modifying the hepatic cellular and cytokine milieu dr
204 on conduction through the transmembrane pore by modifying the His37-water proton exchange equilibria
205 rm carbon accumulation in tropical peatlands by modifying the Holocene Peat Model (HPM), which has be
206 orms may contribute to the development of AD by modifying the homeostasis of ApoE physiological partn
207  balance between mechanisms may be modulated by modifying the immunogen used to induce the antibodies
208 rts and numerous attempts to improve outcome by modifying the inflammatory response.
209 ity to fine-tune the target tissue responses by modifying the intracellular trafficking and secretory
210 tive error of the second eye can be improved by modifying the IOL power to correct up to 50% of the e
211 arying nanoparticle sizes (5, 13, 23 nm) and by modifying the Kd of the bioreceptor using wild-type a
212 her by concentrating CO(2) around Rubisco or by modifying the kinetic properties of Rubisco.
213 cancer effect, we have developed 35 peptides by modifying the lead.
214            Motor fluctuations may be managed by modifying the levodopa dosing regimen or by adding se
215 rectly (by forming NPQ sites) or indirectly (by modifying the LHCII membrane environment).
216  The efficacy of the conjugate was optimized by modifying the linker structure, relative binding orie
217 n control the emission from quantum emitters by modifying the local density of optical states via the
218  be used to finely tune the lattice symmetry by modifying the local distortions, i.e., octahedral bon
219 ble niches to study and direct cell function by modifying the local hydrogel environment.
220  guidelines for correcting problematic sites by modifying the metal-binding environment and/or redefi
221 sible to engineer the intestinal environment by modifying the microbiota community structure or funct
222 cts that this rate constant may be increased by modifying the molecule in a manner that decreases the
223 apted to an obligate intracellular lifestyle by modifying the morphology and content of their cells.
224  is unclear whether they exert their effects by modifying the myocardial redox state.
225    The nanofiller dispersion can be improved by modifying the nanomaterial (NM) surface or predispers
226  The density of the arrays can be controlled by modifying the nanoparticle functionality, pH of the s
227                                              By modifying the nanoparticle surface coverage, which ca
228  obtain highly specific inhibitors of MMP-14 by modifying the natural non-specific broad MMP inhibito
229 AK1-binding proteins 2 and 3 (TAB2 and TAB3) by modifying the Npl4 zinc finger domain through S-adeno
230 ch to solve this often unappreciated problem by modifying the nucleotide sequences of the target mRNA
231 erage pumping frequency from 0.83 to 3.33 Hz by modifying the on-chip valves to minimize adhesion bet
232               The enhancements were achieved by modifying the original procedure in three ways: First
233 mmunoglobulin G (IgG) antibody avidity assay by modifying the Ortho 3.0 HCV enzyme-linked immunoassay
234  sensor that responds to a specific input(s) by modifying the output of a cognate regulator.
235 acid (TBOA) or dissipating the driving force by modifying the patch-pipette solution.
236                                     Finally, by modifying the payoffs to satisfy two novel conditions
237         Five different ligands were prepared by modifying the peripheral thioether moiety with naphth
238 treatment of OTS increased the MB adsorption by modifying the physicochemical properties of OTS and s
239 tracts evidently inhibited biofilm formation by modifying the physicochemical properties of the cell
240 as to improve the original vaccine candidate by modifying the PIV5 vector or by modifying the RSV F a
241 e have fabricated a label free DNA biosensor by modifying the platinum wire with electrochemically sy
242 trolling the types of crosslinks rather than by modifying the polymer itself.
243 er the patient-specific survival probability by modifying the populations of circulating tumour cells
244 ply alters the temporal order of replication by modifying the rate of origin firing within various Ig
245  polymer with different charge distributions by modifying the ratio of anionic and neutral end groups
246 tected benzylamine derivatives were achieved by modifying the reaction conditions, which presented an
247 ructural determination of GPCRs has advanced by modifying the receptors with stabilizing mutations, i
248 MAGE oligos for (i) tuning translation rates by modifying the ribosomal binding site, (ii) generating
249 thesized through lead chemistry optimization by modifying the rings A-C and the core structure in fur
250 d RSV F expression by codon optimization and by modifying the RSV F amino acid sequence to conform to
251 ne candidate by modifying the PIV5 vector or by modifying the RSV F antigen.
252 roteins in aqueous solutions can be directed by modifying the salt concentration.
253 L concentration and whole-body fat oxidation by modifying the saturation index of circulating and tis
254                                              By modifying the secondary building units (SBUs) of MOLs
255                                     Further, by modifying the sensor use from traditional to dynamic
256 an be modified to analyze other types of RNA by modifying the steps for RNA purification as appropria
257  process and a single anneal process, simply by modifying the structural design and/or the anneal tem
258                             This is achieved by modifying the structural design of the SiGe strips, w
259        We aimed to create mPGES-1 inhibitors by modifying the structure of NSAIDs by replacing the ca
260                                              By modifying the structure of the carbanion nucleophile,
261                                              By modifying the substituents on the 7-amino-5-thio-thia
262 icoid receptor agonists (DAGRs) was achieved by modifying the substitution at C3 from (S)-3-hydroxy t
263                                              By modifying the substitution pattern on the alkynone su
264 o reduce both organic and biological fouling by modifying the surface of commercially available poly(
265  to the transferrin receptor of cancer cells by modifying the surface of the liposome with transferri
266 rane on solid surface at low pH was improved by modifying the surface with a conductive substrate con
267             An amine layer was produced next by modifying the surface with EDAC/NHS followed by react
268                        The fibrils are built by modifying the synthetic peptide fragment correspondin
269 study how mycotoxin levels may be influenced by modifying the technological parameters of both whole
270 th Turing's original model, which we explain by modifying the theory to include heterogeneity.
271              The proposed method is realized by modifying the TurboFold II algorithm for prediction o
272  enzymes (DUBs) can regulate these processes by modifying the ubiquitination status of target protein
273 h direct interactions or indirectly, perhaps by modifying the underlying microtubule lattice.
274 ceptibility variants for Parkinson's disease by modifying the underlying point mutations in the alpha
275 milies were shown by the grape varieties and by modifying the vine growing practices.
276 trate tunability of the negative speed zones by modifying the viscosity of the suspending medium.
277                 A binary search is performed by modifying the weight applied to the flux of the bioma
278                        This was accomplished by modifying the widely used technique of stable isotope
279 the bovine papillomavirus E1 and E2 proteins by modifying their DNA binding activity.
280 eria survive harmful environmental stressors by modifying their outer membrane.
281 to numerous endogenous and exogenous signals by modifying their proliferation and differentiation.
282 RNAs regulate hundreds of target transcripts by modifying their stability and translation on a broad
283 avior of these acetal groups can be adjusted by modifying their stereoelectronic and steric propertie
284 he animals studied affect disease phenotypes by modifying their susceptibility, presentation and resp
285  and circuit motifs but form unique networks by modifying these cardinal units.
286                                              By modifying these features, we could impart Spot 42 reg
287           Twenty-nine mutants were generated by modifying these three sites, individually or in combi
288 hat effects of food deprivation are mediated by modifying this protein.
289           We simulated the data successfully by modifying those parameters of a clock model that are
290 lso affect tissue movement and morphogenesis by modifying tissue tension in surrounding cells.
291 nfiguration of the sensing elements - either by modifying toggle switches and gene networks, or by pr
292                                              By modifying total canopy leaf area, its vertical profil
293  the low-pH performance of the YGP1 promoter by modifying transcription factor binding sites in its u
294 bda acted as a unique immunomodulatory agent by modifying transcriptional and non-translational neutr
295 A may indirectly alter the biotic conditions by modifying trophic interactions.
296 ercise slows the trajectory of normal ageing by modifying vascular and metabolic risk factors and/or
297 ake of cancer therapeutics at the tumor site by modifying vascular permeability in the tumor to incre
298                                              By modifying ventricular relaxation properties and the i
299 ures facilitate forgiveness and reduce anger by modifying victims' perceptions of their transgressors
300 uted to controlled release after consumption by modifying vitamin bioaccessibility.

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