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1 ifurcations in metabolic syndrome creates an environment where a large number of the pre-capillary ar
2 dhesion to others in a periodically changing environment, where a cell's fitness solely depends on it
3 holerae is a natural resident of the aquatic environment, where a common nutrient is the chitinous ex
4 vary protein modifications occur in the oral environment, where a plethora of host- and bacteria-deri
5 rm, suggesting that shallow serpentinization environments where a separate gas phase is present may b
7 phototransformation rates of AAs in aquatic environments where AAs in combined forms (e.g., oligopep
9 consideration has been given to the surface environment where ActA performs its pivotal role in bact
10 l mode switching for a strongly color-tinted environment, where adaptation causes the dominant hue to
11 ave an unappreciated impact within the local environment where Ag presentation is occurring and poten
12 l result in an increased amount entering the environment, where AgNMs were recently found to cause ph
13 -simulated wastewater treatment plant (WWTP) environment where anaerobic digestion is used as part of
14 gricultural settings exemplify these complex environments, where antimicrobial leachates may inhibit
17 the direction and intensity of selection in environments where arginine concentrations fluctuate fre
19 n adaptation to the competitive oral biofilm environment, where autolysis could create open spaces fo
20 We show that it can speed up evolution in environments where available carbon and energy sources c
21 ial endophyte communities in Chilean extreme environments, where Bacillaceae and Enterobacteriacea co
23 they may be required for survival in natural environments, where bacterial walls can be damaged exten
25 to live in freshwater, estuarine, and marine environments where biofilm formation may provide a selec
26 n also contribute to iron redox processes in environments where biogenic Fe(III) minerals are present
28 t just the bacterial community, is a dynamic environment where both disease and season play important
30 ommon than in the U.S., reasoning that in an environment where calories are less abundant, incident c
31 tu raised pH at the cathode provides a local environment where CaP will become highly supersaturated.
32 , Aer sensing also enables bacteria to avoid environments where carbon deficiency, unfavourable reduc
33 er, how stem cell homeostasis is achieved in environments where cells are motile and dispersed among
34 ing cell migration in three-dimensional (3D) environments, where cells often have to transit through
36 obal flux is dominated by shallow near-shore environments, where CH(4) released from the seafloor can
37 uld be an important source of CH3Hg(+) in an environment where CH3I has been used in large amounts as
39 w potentially problematic areas in nearshore environments, where collaboration networks measured by d
41 hSS can be deployed as a multi-user software environment where collaborators share computational reso
42 of "omics" approaches in monitoring aquatic environments where complex, often unknown stressors make
43 ably until several kilometers into the urban environment, where concentrations of solutes such as chl
45 plication of bacterial sensors in an outdoor environment, where control of background illumination is
48 es during inflammation creates a proteolytic environment where degradation of different molecules mod
50 The movement through the cytoplasm-a crowded environment where diffusion is slow-is thought to utiliz
52 ons in a desired direction or can provide an environment where dissipative mechanisms such as spontan
53 ping a human-associated marker in urban slum environments, where domestic animals are exposed to huma
54 hese changes on the apoptotic cell create an environment where "don't eat me" signals are rendered in
55 nuals rather than perennial species occur in environments where droughts are significantly more frequ
57 for each case to display the wide variety of environments where each of these elements is present.
58 itate microbial goethite reduction in anoxic environments where electron transfer between cells and F
59 nd crystallography, provides a nonperturbing environment where electronic and structural dynamics of
60 mining trophic positions and TMF in polluted environments, where elevated delta(15)N values would tra
63 given to EET by planktonic organisms in oxic environments where extracellular electron generation and
64 ing the system's functionality in a changing environment, where failures, random events or malicious
65 tive logic-gate networks ("animats") in task environments where falling blocks of different sizes hav
66 whereas these genes are retained in dynamic environments where Fe availability fluctuates and N and
68 s for U(VI) mobility in natural and impacted environments where Fe(III) (oxyhydr)oxides are usually a
70 of preservation was favoured in sulfate-poor environments where Fe-silicate precipitation could outco
72 hibition of BMP activity, dlx3b/4b create an environment where FGF activity is favorable for PPR and
73 on create iodine hotspots in the terrestrial environment where fine, particulate organic matter accum
74 ted upstream motility could be beneficial in environments where flow is present, allowing bacteria to
75 ay enhance the capacity of species to occupy environments where food availability is low and unpredic
77 s suggest that, in vivo, DBD must fold in an environment where free Zn2+ concentration is low and its
78 ones can be used as gait assessment tools in environments where gait dynamics have traditionally been
80 humans evolved to survive in hostile dynamic environments where goal availability and value can chang
81 nce of migratory behavior will be favored in environments where green-up is fleeting and moves sequen
82 suggests that, in contrast to an open-field environment, where grid cells exhibit firing patterns wi
83 oward understanding bacterial growth in many environments where growth rate is limited by the availab
84 tanding metabolic changes within bacteria in environments where growth substrate availability is diff
85 directly investigated in vitro in a cellular environment where hepatic metabolism was well maintained
86 erefore not required for survival in natural environments, where heteromeric acetyl-coenzyme A carbox
87 rved in plaque macrophages in the regression environment where high levels of CCR7 expression are obs
88 assay design in an automated high-throughput environment, where high coverage of potentially thousand
89 significantly to high diastolic stiffness in environments where high ADP and increased diastolic [Ca(
90 red by a number of challenges, especially in environments where high methane concentrations preclude
91 ingiva - a constantly stimulated and dynamic environment where homeostasis is often disrupted, result
92 of microbial carbon cycle in deep subsurface environments where hydrogen and sulfate are present.
93 ut is potentially compromised in terrestrial environments where image distortion may be more obvious
94 f vascular cells therefore require realistic environments where in vivo mechanical loading conditions
95 NO(3) may exist in molecular form in aqueous environments, where in principle one would expect this s
96 Fairness preferences are advantageous in an environment where individuals are in strong competition
97 system is important for survival in natural environments, where individuals are frequently exposed t
98 of restoring axonal growth within an injury environment where inhibitory molecules from damaged myel
100 needs to be secreted into the extracellular environment where it chelates Fe(3+) from the growth med
101 odds of withdrawal included practicing in an environment where it is not legally possible to make dec
102 expression was determined by the intestinal environment where it served a stimulatory function leadi
103 ally, Frmpd1 may position AGS3 in a membrane environment where it then interacts with Galphai in a re
104 highly persistent properties in the aquatic environment, where it has the potential to affect nontar
105 bii (serotype A), which is widespread in the environment, where it is primarily associated with pigeo
106 ase cholera, but it also persists in aquatic environments, where it displays an expression profile th
107 s life cycle, V. cholerae persists in marine environments, where it forms surface-attached communitie
108 ns contain copper in a range of coordination environments, where it has various biological roles, suc
109 icularly in coastal mid-latitude atmospheric environments, where it initiates the formation of new ae
110 onments, being particularly abundant in soil environments, where it is predicted to occur in up to 76
111 ent in virtually all terrestrial and aquatic environments, where it participates in redox reactions w
112 umophila is ubiquitously found in freshwater environments, where it replicates within free-living pro
113 has strong dependency on the pH value of the environment, where its peak undergo noticeable shift as
114 munoprecipitation assay revealed that, in an environment where K-Rta is overexpressed and in the abse
118 lack understanding of phenological change in environments where life history events are frequently as
120 pecies using these photoreceptors in aquatic environments, where light color ratios are influenced by
121 ls provides evidence for a wetter and warmer environment where liquid water was more abundant than it
122 behavior of biological microorganisms in an environment where local symmetry is broken (as often enc
123 its many Gram-negative bacteria to thrive in environments where low soluble iron concentrations would
124 above 700 degrees C in chemically aggressive environments, where low heat and mass transfer rates lim
125 ions that reflect their native intracellular environments where macromolecular crowding can drastical
126 tabolic flexibility may be important in many environments where methane and short-chain alkanes co-oc
127 tion, including the speciation of mercury in environments where methylation occurs and the processes
128 The human oral cavity is one of the first environments where microbes have been discovered and stu
131 ere nanometers apart and probed in identical environments, where mineralization is proved to require
132 dynamics are also relevant to other cellular environments where mobile species undergo slow diffusion
133 can be used for application in more complex environment where more number of commands is to be used
134 xcess of sodium cations as well as in acidic environment where most alternative adsorbents with oxyge
137 of a crab inhabiting a flat, densely crowded environment, where most object motions are generated by
138 gi are ubiquitous components of indoor human environments, where most contact between humans and micr
139 volution in stochastic, spatially structured environments, where movement and dispersal are under sel
140 ent uplift of the northern Andes, the upland environments where much of this rich endemic flora is fo
141 es have been confined largely to high-stress environments where multicellular organisms are rare.
142 We take a different approach by creating an environment where multiple knowledge transfer tasks can
143 ptide exit site of the ribosome is a crowded environment where multiple ribosome-associated protein b
145 measurement of total odd nitrogen (NO(y)) in environments where NaNO(3) particles may be present (e.g
146 nd the ecology of Alcanivorax in its natural environment, where natural polyesters such as polyhydrox
147 aradox of bet-hedging-why does it persist in environments where natural selection necessarily acts to
148 veal the highest g(sn) rates in species from environments where neighboring plants compete most stron
149 diseases as well as the intensive care unit environment where noise and frequent therapeutic/diagnos
150 y are especially problematic in low resource environments where non-fatal injuries can lead to high m
152 e important to DNA metabolism, especially in environments where nucleosides are freely available to b
155 n oxidant in carbon cycling mainly to sunlit environments where *OH is produced photochemically, but
158 stems are often studied in "well-controlled" environments where only a single input is varied, potent
160 other Thermococcus species in hot subsurface environments where organic substrates are present, S deg
161 ), the lowest for any HEA tested in an inert environment where oxidation and the formation of mixed m
162 M, and may also be relevant to other complex environments where pathogen contamination presents risks
163 e cohort study implemented in a naturalistic environment where patients underwent nurse-led structure
166 atoms are the main primary producers in this environment, where photosynthesis is limited by low conc
167 nstrated that C. glabrata is limited from an environment where phytic acid is the only source of phos
168 aining to the hydrodynamics of water-limited environments where plant-plant interactions and communit
169 nd environmental applications, especially in environments where plasmids and antibiotic selection are
170 peutic small molecules in a disease-cellular environment where potentially disrupted pathways are exp
171 encountered in the deep sea and sub-seafloor environments, where pressures reach the kilobar (100 MPa
172 uals that are habituated to noisy, uncertain environments where private information about the world i
173 ad to more severe terminal drought stress in environments where production relies on stored soil wate
175 associated with more productive and seasonal environments, where prolonged parent-offspring associati
177 in, PAO1, in conditions that recapitulate an environment where QS signal synthesis by other bacteria
178 VEPRs in a high quality virtual reality (VR) environment where real and virtual foreground objects se
179 about their partners, but survives in richer environments where relevant details about partner past b
180 lation and community dynamics of microbes in environments where resident communities are perturbed, s
181 larger genome-sized species may dominate in environments where resources are scarce but diverse and
182 tous coastal features that create low-energy environments where salt marshes, oyster reefs, and mangr
183 maximum aH2O for Meridiani Planum and other environments where salts precipitated from martian brine
185 expected to make their way into the aquatic environment where sedimentation of particles will likely
188 us under stressful high altitude or latitude environment where short growing seasons, low temperature
189 many physically and chemically heterogeneous environments where signal molecules are transported prim
192 ontexts is better adapted to variable social environments where social partners may change their cuin
193 dency is most likely to occur in homogeneous environments where specific plant - AM fungal pairings h
194 f sponge microbiomes in the Antarctic marine environment, where sponges may dominate the benthic land
195 se pathways help to define the physiological environment where stem cells reside, and how perturbatio
196 We present evidence that microaerobic marine environments (where steroid biosynthesis was possible) c
199 h more stressful conditions in their natural environments where survival and competitive fitness depe
201 l to the operation of electronics in extreme environments, where systems capable of high-rate dischar
202 ion and forms expectations in a multisensory environment, where task-relevance and signal probability
204 The flea's lumen gut is a poorly documented environment where the agent of flea-borne plague, Yersin
205 Antimicrobial prescribing is performed in an environment where the behavior of clinical leaders or se
206 g increasingly oxygen-deficient states in an environment where the cobaltite would normally be fully
207 e solution, which provides a high dielectric environment where the Coulomb potential between charges
209 entration and matrix density that creates an environment where the glycolytic phenotype has a growth
210 n in emulsion creates a spatially structured environment where the growth-limiting substrate is priva
211 mplants must be active in the dental implant environment where the implant is bathed in the glycoprot
212 on the occurrences of NPF events in an urban environment where the majority of precursor gases origin
213 tivity that represented the locations in the environment where the memory was initially encoded.
214 re line and propagating through a vegetative environment where the midstory has been cleared in diffe
215 er protein-damaging conditions, acting in an environment where the overall transcription is silenced.
216 of natural resources is a lifelong learning environment where the poor communities have access to th
217 ds with various properties and to sustain an environment where the processes critical to life may pro
218 c insect symbiotic bacteria inhabit a static environment where the requirement for sensory functions
219 s ring) and allows it to fold in a protected environment where the risk of aggregation is reduced.
220 duplexed "closed" structures, and create an environment where the smallest, most stable structure is
221 n 10 g/L, yet proteins function in a crowded environment where the solute concentration can exceed 40
222 rbed onto mineral surfaces exist in a unique environment where the structure and dynamics of the prot
223 pulmonary status, and vice versa, creates an environment where the whole patient can heal and recover
224 c lineages, yet is crucial in the testicular environment, where the basal membranes of adjacent polar
226 cal relationship between an organism and its environment, where the latter more substantially influen
228 a disrupts place cell activity in a familiar environment, where the map is expected to be stable.
229 Schistosoma mansoni directly in the aquatic environment, where the nonhuman part of the parasite lif
231 lia control is strongest in an unpredictable environment, where the prefrontal cortex plays an import
232 uding crops, forests and algae, must grow in environments where the availability of light energy fluc
234 e to U(IV) and U(VI) in uranate coordination environments where the coordination number of U is less
235 ivities of IS elements heavily depend on the environments where the host organisms live; (b) the numb
236 tionality and have been proposed for extreme environments where the interfaces are expected to promot
237 r prepare their offspring to cope with later environments where the same stressors are experienced.
238 for the oxidation of uranium in water vapour environments where the transport of hydroxyl species and
239 ls usually have to make decisions in dynamic environments where the value and the availability of an
240 als for contact with living systems in space environments, where the effects of heavy ionizing partic
241 the result of it originating in terrestrial environments, where the pterosaur fossil record has trad
243 Unfortunately, many people are living in an environment where their circadian system is challenged b
244 ll inevitably lead to their release into the environment where their fate and persistence will be inf
246 etain horizontally acquired plasmids even in environments where their accessory genes are not immedia
247 the evolution of learning rules in a simple environment where there exists an optimal rule of simila
250 ng the laboratory findings into the clinical environment where these markers are used in clinical dec
251 is now becoming clear that the dynamic lipid environment, where these proteins operate, also plays a
252 etabolic activity of Thaumarchaeota in polar environments, where these microorganisms are particularl
253 nd recruiting these cells to the local wound environment where they are able to accelerate repair.
255 e care unit (ICU) nurses work in a demanding environment where they are repetitively exposed to traum
256 ells and are released into the extracellular environment where they can be disseminated into the bloo
257 equi and commensals that are shed into their environment where they can persist and potentially infec
258 of phenotypes that matter to fitness in the environment where they evolved - yet globally pleiotropi
259 ophages locked cancer cells in this isolated environment where they fail to form tumours despite reta
261 units thus reticulated become part of a new environment where they have (a) lower degrees of freedom
262 e, these molecules are slowly emitted in the environment where they play an important role in chemica
264 her they affect microbial performance in the environment, where they are not needed, remains experime
265 among the most reactive minerals within the environment, where they control the bioavailability of c
267 he surface of most eukaryotic cells into the environment, where they function in a variety of sensory
269 toxins in particular can be emitted into the environment, where they may contribute to the complex mi
270 halate (PET) are extremely persistent in the environment, where they undergo very slow fragmentation
271 re more and more likely to be present in the environment, where they will associate with organic micr
272 ans produce more of their spores sexually in environments where they are less fit, resembling a hypot
273 r sources to polar regions and high mountain environments where they can be trapped in ice archives.
275 ion how animals find food in dynamic natural environments where they possess little or no knowledge o
276 Fungi play a dominant role in terrestrial environments where they thrive in symbiotic associations
277 who were reared in extremely aberrant social environments where they were deprived of the kind of car
279 ic and lived in freshwater swamp or riverine environments, where they grazed on freshwater vegetation
280 migrants work in hazardous and exploitative environments, where they might be at considerable risk o
281 s are abundant in the photic zone of aquatic environments, where they play a prominent role in photoc
282 widespread in modern and fossil hypersaline environments, where they provide a unique sedimentary ar
284 n thymocyte development in an "in vivo-like" environment where toxic metabolites accumulate in situ.
285 he control of T7 RNA polymerase and to other environments where transcription and translation can be
292 ructures, particularly in thiol-rich surface environments where UV-absorbing polycyclic aromatic hydr
293 The drug delivery area needs to nurture the environment where vastly different ideas can be tested,
294 ch are particularly important in terrestrial environments where vertical undulations can regulate sub
295 human health, particularly in urban roadside environments where very large numbers of people are freq
296 ndamentally multisensory process in everyday environments, where vision modulates even this largely a
300 kely to occur in either an anoxic or euxinic environment where Zn concentrations would be vanishingly