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1 e also increased losses of reactive N to the environment.
2 l epithelial disease after exposure to a dry environment.
3 ontrol that underlie adaptations to the cave environment.
4 ect of predators on plankton in the fishless environment.
5 r the complex variance structure of the oral environment.
6 ound to be strongly dependent on the growing environment.
7 resistance (AR) genes and bacteria into the environment.
8 ts the long-term statistical structure of an environment.
9 result of thermal annealing under protective environment.
10 diating their interaction with the microbial environment.
11 irming an acute disconnect from the external environment.
12 le epithelium from where it is shed into the environment.
13 the determination of uranium sources in the environment.
14 perform different movements in a 3D fluidic environment.
15 es with information gleaned from the current environment.
16 he interactions between the organism and its environment.
17 can provide stability and protection in the environment.
18 dividual researcher within a single software environment.
19 a critical role in plant's adaptation to the environment.
20 t interface between the body and the outside environment.
21 sensitivity to perceived changes in the task environment.
22 ion growth rates with respect to the average environment.
23 understanding and learning about the social environment.
24 udies have focused on exposure in the indoor environment.
25 f large-scale changes in the subpolar marine environment.
26 ng them to interact with and learn about the environment.
27 olipids, i.e. mixed micelles and the aqueous environment.
28 ngs with minimal interactions with the local environment.
29 er against noxious compounds in the external environment.
30 tion of PCG without negatively impacting the environment.
31 tentially endemic to this submarine volcanic environment.
32 y include selective pressure from the social environment.
33 correctly reflect the influence of the whole environment.
34 ontext of the cellular cytoplasm, a reducing environment.
35 t as reporters on their surrounding chemical environment.
36 rasite, possibly to anticipate its circadian environment.
37 e used to enhance our ability to monitor the environment.
38 th, coinciding with exposure to the external environment.
39 ch often require export to the extracellular environment.
40 the emission of anthropogenic noise into the environment.
41 (ie, stiffness and height) to changes in the environment.
42 an flexibly adapt our behavior to a changing environment.
43 ystem will need to adapt to this transformed environment.
44 d climate interactions with other aspects of environment.
45 ate K. pneumoniae from stool, blood, and the environment.
46 arning, which considers the structure of the environment.
47 maging (fMRI) in the more restricted scanner environment.
48 n and a range of unique adaptations to their environment.
49 when the same cue was presented in a second environment.
50 or in-vitro, in an artificial and controlled environment.
51 se expression is contingent heavily upon the environment.
52 by a simple modification of the coordination environment.
53 inges that become less constrained in the LD environment.
54 generated, dispersed, and fragmented in the environment.
55 nulation even in the absence of inflammatory environment.
56 eters from salty solutions to mimic cellular environments.
57 but they changed at comparable rates in both environments.
58 electron transfer process in natural anoxic environments.
59 lopment that helps organisms survive extreme environments.
60 and assume their role in creating welcoming environments.
61 or incidental news exposure in digital media environments.
62 NO scavenging activity in any of the studied environments.
63 entric strategies in geometrically polarized environments.
64 actions between bacteria and their immediate environments.
65 s operations whether in training or deployed environments.
66 o vocal sounds produced by others in complex environments.
67 distinct strategies when learning in complex environments.
68 riety of bacteria to thrive in specific host environments.
69 ove this crop for agriculture in hot and dry environments.
70 nderstand population persistence in seasonal environments.
71 their adaptive potential to rapidly changing environments.
72 with concentrations of superoxide in marine environments.
73 -2a to COQ-2e as they transit into anaerobic environments.
74 in tolerant species in recurrently stressed environments.
75 es by introducing pathogens into susceptible environments.
76 ting scope of diversity in Earth's biota and environments.
77 olution of complexes inside crowded cellular environments.
78 flexibility for sampling from highly dynamic environments.
79 ing rhodopsins are isolated from non-aquatic environments.
80 ranges and frequencies in continental-shelf environments.
81 l in cells that grow in acidic extracellular environments.
82 onized by microbes when released into marine environments.
83 across sociopolitical contexts and exogenous environments.
84 restrictions mask this effect in laboratory environments.
85 control of threat responses in unpredictable environments.
86 nsistently responded to cues across multiple environments.
87 ployed in contrasting riverine and estuarine environments.
88 g DEL compatible chemistry to dilute aqueous environments.
89 s participants' search behavior in different environments.
90 tic fitness effects of mutations in changing environments.
91 of maintaining growth in hot, water-limited environments.
92 lung, and thus in highly diverse and dynamic environments.
93 to these highly structured but heterogeneous environments.
94 ations for how green plants adapt to extreme environments.
95 y model that exposes the pulp to the outside environment, a procedure we have previously shown produc
96 exhibit distinct spike patterns in different environments, a circuit function called "remapping." We
97 nd genes conditionally essential in multiple environments - abscess formation; epithelial colonizatio
98 h require substantial changes in their local environment across an ensemble of conformations are more
100 elements, indicating that the intracellular environment affects LOV photoreceptor mechanisms in gene
101 ects of aging and, independently, of retinal environment age on their GABA(A) receptor (GABA(A)R) res
102 plasticity or parental effects-when parental environments alter the phenotype of future generations-c
103 photoacid naturally embedded in the protein environment and accounts for the large Stokes shift of G
104 Combining the results of these QTL in each environment and across both sites, three main QTL hotspo
105 were incubated at 37 degrees C in a 5% CO(2) environment and at days 7 and 14, the specimens were har
106 bility is essential for animal survival when environment and behavioral state change over short or lo
107 cially so for pollutants that persist in the environment and can reach polar latitudes via a wide ran
108 zebrafish larvae swimming in a naturalistic environment and develop models of their action selection
111 These findings link fertility to nutritive environment and point to Sax signaling as the nutrient-s
112 sion, should focus on improving the physical environment and supporting social ties in communities, w
113 aders should continue to study the 24/7 work environment and test measures to improve the safety of s
114 s considerably with factors in the perinatal environment and the genetic background of the comparison
115 categories are driven both by their current environment and their long-term memory representations.
116 bles these neurons to respond to the luminal environment and to induce expression of neuron-specific
117 ing the energetic cost of surviving in harsh environments and HMP patterns may reflect the importance
118 Cognitive abilities can shape these social environments and in turn, affect individuals' fitness.
119 thogens often evolve in response to changing environments and medical interventions, and information
120 rmit the facile integration of membrane-rich environments and self-assembling spatial organization wi
121 evel and external failures due to an adverse environment, and develop a pair approximation analysis t
122 x interaction between genetics, epigenetics, environment, and nutrition affect the physiological acti
124 s) are ubiquitous contaminants of the marine environment, and the deep seafloor is their ultimate sin
125 ive reserve due to an impoverished listening environment, and the occupation of cognitive resources w
126 or workplace changes to promote healthy work environments, and promoting research to further explore
128 ntify mobility in unsupervised, daily living environments are emerging as complementary clinical asse
130 posure, and animals adapted to live in these environments are predicted to deal more effectively with
132 lacean acid metabolism (CAM) evolved in arid environments as a water-saving alternative to C(3) photo
134 In this article, we describe the immune environments associated with major B-cell lymphomas with
135 e according to sub-population and production environment based on differences in physicochemical grai
136 enerally limited to micromolar levels in the environment because it precipitates with calcium as low-
137 t for radiative heat transfer in the ambient environment, because of the overlap with the atmospheric
138 only because of their harmful effects in the environment but also because of their risk to human heal
139 were highly active in response to anxiogenic environment but had lower excitability and fewer presyna
140 dels to behaviorally relevant aspects of the environment, but that this approach is prone to sub-opti
141 rentiation and facilitates adaptation to new environments, but the tools to test its limits are lacki
144 n with the severe endogenous proinflammatory environment, can convert defective Treg cells into power
145 f using the Computer Assisted Rehabilitation Environment (CAREN) system as a visual rehabilitation to
146 the bacteria to strongly alter the chemical environment, causing on average more negative interactio
149 ity, and its potency is higher in a membrane environment compared to assays performed with water-solu
150 hibition, suggesting that the obese/diabetic environment confers cancer-selective dependencies that c
152 n ongoing, adaptive process of assessing the environment, coping with it, and enabling the individual
153 Humans exert dramatic influences upon the environment, creating novel selective pressures to which
154 rinsically disordered regions, implying that environment-dependent association and binding is critica
155 utationally invariant polynomials or sums of environment-dependent atomic contributions, which have r
157 roenvironment, particularly confined aqueous environments (e.g., hydrogels), affects both the mode an
158 to recognizing objects and orienting to the environment, especially at low spatial resolution as gen
159 y resulted in a highly heterogenous physical environment even within isobaths that likely influenced
161 e genetic elements (MGEs) compete in dynamic environments, evolving strategies to sense the milieu.
163 ike behaviors, cannabimimetic effects, novel environment exploratory behavior, pre-pulse inhibition,
164 how we think about the current communication environment, exposure to news, and ongoing attempts to l
170 curs in the morning-time urban street canyon environment, for which our model can only explain half o
173 es given the proper stabilizing coordination environment from the reducing transition metal fragment.
174 on that this synthetic material has with its environment, from ecotoxicity and new links in marine fo
176 hese compounds in both the ambient and built environments, future research on their potential toxic e
177 uman release of reactive nitrogen (N) to the environment has increased 10-fold since 1860 and is expe
178 omes belonging to uncultured groups from the environment has resulted in the description of several n
181 ions between the dispersal unit and physical environment have uncovered fluid dynamic mechanisms of s
182 these results establish that reachable-scale environments have a distinct representational signature
183 ons of microplastic abundances in freshwater environments have become more common in the past five ye
185 rganisms survive in variable but predictable environments, however, we currently lack a rigorous, mec
187 Here we realize a multidentate coordination environment in a metal-organic framework to stabilize di
188 to determine how it could influence the gut environment in ICP to alter enterohepatic signalling.
190 ons underscored the potential for the hydric environment in shaping the evolution of nest site choice
195 ic Hg from terrestrial landscapes to aquatic environments in the region, potentially leading to bioac
197 s or IDPs in both dilute and phase-separated environments, in particular at neutral and higher pHs wh
198 is specialized toward hunting in an aquatic environment, indicated by the placement of the nares on
200 scribe the next generation of work on gene x environment interaction, with a particular focus on how
202 suggesting that tuning individual electronic environment is a viable approach to control phase-transf
203 me that is well adapted to a particular host environment is indeed possible, emphasizing the great po
206 how climatic events were expressed in local environments is crucial to understand human and animal s
207 standing life history strategies in deep-sea environments is lacking for many species of fishes.
208 therm physiology adapts to different thermal environments is of crucial importance, especially in the
211 f jawless vertebrates open directly into the environment, jawed vertebrates evolved skeletal appendag
212 orphic species in its rainfall-unpredictable environment likely is enhanced by plasticity in producti
213 these results indicate that depending on the environment, local or bloodstream, the consequences of t
215 coral populations can persist in high pCO(2) environments, making this system a powerful candidate fo
216 nce oral mycobiome members acquired from the environment may be viable in the oral cavity, and althou
218 the responses of insect herbivores to light-environment-mediated variation in the traits of their ho
220 low JGTA-S1 to fix N(2) and grow in a N-free environment; moreover, P. stutzeri dinitrogen reductase
221 se likely contributes to the noninflammatory environment needed for Y. pestis colonization and prolif
222 tical model to show, that in highly variable environments, not only does sensing promote plasticity o
226 oposed, showing that the competing solvation environment of the catalyst and Li(+) leads to LiOH prec
227 ility under the high temperatures and acidic environments of therapeutic applications significantly l
228 Avoiding extinction in a rapidly changing environment often relies on a species' ability to quickl
229 tute for Chemistry and Biology of the Marine Environment, Oldenburg-complex molecular mixtures, evalu
230 e discuss why the influence of the childhood environment on adult reproductive function is an importa
231 s (Epidemiological Study on the Genetics and Environment on Asthma and the European Community Respira
232 icit solvation: the influence of the solvent environment on these EIEs is essentially captured comple
233 impact of confined and controlled swine farm environments on temporal changes in the gut microbiome a
234 heterogeneity might correlate with the local environment or their interactions with different neuron
235 ponses.SIGNIFICANCE STATEMENT In our natural environment, our senses are continuously flooded with a
237 an be enhanced by the exploration of a novel environment presented during a vulnerable early phase of
238 lability, where depleted and more stochastic environments promote investment in each reproductive eve
240 ion, structures of TRPV3 in a lipid membrane environment provide unique insights into channel activat
241 vity and/or selectivity for many energy- and environment-related reactions, but their stability at hi
244 ne-derived SOA in two isoprene-rich forested environments representing clean to polluted conditions-w
245 lex microbial dynamics in spatially extended environments, requiring tools that can bridge the gap be
247 th a miR-744-5p antagomir in an inflammatory environment resulted in reduced levels of IFN dependent
248 HCII pigment-protein complexes in a membrane environment, revealing putative sites for conformational
252 Local adaptation directs populations towards environment-specific fitness maxima through acquisition
254 assification accuracy and that combined gene-environment stratification would improve the discriminat
255 llular responses in heterogeneous real-world environments such as the gut(6,7), solid tumours(8,9), b
257 SkSES approach is based on trusted execution environments (TEEs) offered by current-generation microp
258 different plant families across three forest environments (Terra Firme, Seasonally Flooded and White
260 odulate the vector gut microbiota towards an environment that favours colonization by the spirochaete
261 ears to decades) changes in the contemporary environment that might not otherwise be recognised or pr
262 sting Mtb infection creates an immunological environment that reflects Mtb infection status and influ
263 isolated refugia, and diversified in benthic environments that became increasingly available as ice r
266 of wood and wooden structures exposed to the environment the use of good design, durable woods and pr
267 ury (Hg) transformation processes in natural environments, thermodynamics and kinetics of divalent me
268 thousands of pollutants reaching the marine environment though wastewater discharges from coastal so
269 in mortality across teaching and nonteaching environments, though costs were higher at teaching hospi
271 molecular photoresponsive systems in aqueous environments through a full spectrometric approach combi
272 the need to prevent PCBs entering the marine environment to ensure that levels continue to decline.
275 iventer) living in two different elevational environments to quantify age-specific reproductive succe
276 s are always subject to interactions with an environment, typically resulting in decoherence and dist
277 ual carbon atoms as they interact with their environment, undergoing biochemical transformations and
278 d immunological protection from the external environment using functionally distinct layers, cell typ
279 and, as we show, cannot accommodate general environment variables, modest sample sizes, heterogeneou
280 ity of the organozinc compounds in an acidic environment was exploited to accomplish the synthesis of
281 ifficulty in culturing many microbes from an environment, we can still study these communities by iso
282 As we continue to build such supportive environments, we can see that they will use effective co
283 e cohort study implemented in a naturalistic environment where patients underwent nurse-led structure
284 tanding metabolic changes within bacteria in environments where growth substrate availability is diff
285 activity strongly tracked visual cues in one environment, whereas responses were almost completely ab
286 d in a population may alter the state of the environment, which may in turn feedback to change the in
287 emically reactive particulates in subglacial environments, which play a key role in trace elemental c
288 organization to conform to a new healthcare environment while still providing high-quality care to a
289 he uterus constitutes a unique immunological environment with specific features of tissue renewal and
290 regulatory node that integrates the luminal environment with the physiological output of intestinal
291 with wild barley genotypes adapted to desert environments with a preferential enrichment for members
292 film-forming and human-microbiome-influenced environments with corresponding patterns of spatiotempor
293 e importance of coupling controlled reaction environments with in situ XRD to study the phase relatio
295 ees exhibit greater behavioural diversity in environments with more variability - in both recent and
296 To survive and proliferate in diverse host environments with varying nutrient availability, the obl
297 tional landscapes by modulating the cellular environment, with implications for protein design and co
298 were collected in both greenhouse and field environments, with plants exposed to different levels of
299 Landscape-scale reconstructions of ancient environments within the cradle of humanity may reveal in
300 orks of Antarctic terrestrial and freshwater environments; yet we still know little about their biodi