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1 ifurcations in metabolic syndrome creates an environment where a large number of the pre-capillary ar
2 holerae is a natural resident of the aquatic environment, where a common nutrient is the chitinous ex
3 vary protein modifications occur in the oral environment, where a plethora of host- and bacteria-deri
4 rm, suggesting that shallow serpentinization environments where a separate gas phase is present may b
5                                        Urban environments, where a large variety of methane sources c
6  phototransformation rates of AAs in aquatic environments where AAs in combined forms (e.g., oligopep
7  consideration has been given to the surface environment where ActA performs its pivotal role in bact
8 tate binding of nuclear factors in chromatin environments where adjacent nucleosomes might otherwise
9 ave an unappreciated impact within the local environment where Ag presentation is occurring and poten
10 l result in an increased amount entering the environment, where AgNMs were recently found to cause ph
11 -simulated wastewater treatment plant (WWTP) environment where anaerobic digestion is used as part of
12 hey house seriously ill patients in confined environments where antibiotic use is extremely common.
13  time frame of which is predetermined by the environment where apoB synthesis occurs.
14 ding the extreme acidic, thermal, and saline environments where archaeal organisms can dominate.
15  the direction and intensity of selection in environments where arginine concentrations fluctuate fre
16 esort and suggest that physicians working in environments where assisted dying is legal are obliged t
17 n adaptation to the competitive oral biofilm environment, where autolysis could create open spaces fo
18                                         Most environments where bacteria are found are periodically d
19 they may be required for survival in natural environments, where bacterial walls can be damaged exten
20 an animal model to reflect the physiological environment where Bid could be functional.
21 1; the pH is also appropriate for the acidic environment where binding would take place.
22 to live in freshwater, estuarine, and marine environments where biofilm formation may provide a selec
23 n also contribute to iron redox processes in environments where biogenic Fe(III) minerals are present
24       Natural populations persist in complex environments, where biotic stressors, such as pathogen a
25 t just the bacterial community, is a dynamic environment where both disease and season play important
26 ation to the diffusion-limited, oligotrophic environments where C. crescentus thrives.
27 m to limit the production of O2- to a tissue environment where C1q, or some other stimulus, is coloca
28 ommon than in the U.S., reasoning that in an environment where calories are less abundant, incident c
29 tu raised pH at the cathode provides a local environment where CaP will become highly supersaturated.
30 , Aer sensing also enables bacteria to avoid environments where carbon deficiency, unfavourable reduc
31 ing cell migration in three-dimensional (3D) environments, where cells often have to transit through
32                      In resource-constrained environments where censuses and household surveys are ra
33 uld be an important source of CH3Hg(+) in an environment where CH3I has been used in large amounts as
34                                Within a work environment where clients' preferences determine condom
35 w potentially problematic areas in nearshore environments, where collaboration networks measured by d
36          She created a harmonious, collegial environment where collaborative synergy fueled meaningfu
37 hSS can be deployed as a multi-user software environment where collaborators share computational reso
38  of "omics" approaches in monitoring aquatic environments where complex, often unknown stressors make
39 ably until several kilometers into the urban environment, where concentrations of solutes such as chl
40             These features evolve in dynamic environments, where conditions can change rapidly over s
41 plication of bacterial sensors in an outdoor environment, where control of background illumination is
42              Furthermore, T cells in the FRC environment where Cox-2 is genetic inactivated are more
43 es during inflammation creates a proteolytic environment where degradation of different molecules mod
44  it are utilized when 2.4.1 is growing in an environment where denitrification occurs.
45 The movement through the cytoplasm-a crowded environment where diffusion is slow-is thought to utiliz
46 ons in a desired direction or can provide an environment where dissipative mechanisms such as spontan
47 ping a human-associated marker in urban slum environments, where domestic animals are exposed to huma
48 hese changes on the apoptotic cell create an environment where "don't eat me" signals are rendered in
49 are often sulfidic, including the intestinal environment where E. coli dwells.
50 for each case to display the wide variety of environments where each of these elements is present.
51 iferation and apoptosis combine to create an environment where effective maturation occurs even after
52 mining trophic positions and TMF in polluted environments, where elevated delta(15)N values would tra
53 gression-related energetic expenditure in an environment where energy conservation is crucial.
54 given to EET by planktonic organisms in oxic environments where extracellular electron generation and
55 tive logic-gate networks ("animats") in task environments where falling blocks of different sizes hav
56  whereas these genes are retained in dynamic environments where Fe availability fluctuates and N and
57 s for U(VI) mobility in natural and impacted environments where Fe(III) (oxyhydr)oxides are usually a
58 dominant species in a variety of sedimentary environments where Fe(III) reduction is important.
59 of preservation was favoured in sulfate-poor environments where Fe-silicate precipitation could outco
60 hibition of BMP activity, dlx3b/4b create an environment where FGF activity is favorable for PPR and
61 on create iodine hotspots in the terrestrial environment where fine, particulate organic matter accum
62 ted upstream motility could be beneficial in environments where flow is present, allowing bacteria to
63        Our data show that locusts walking in environments where footholds are limited use visual and
64 s suggest that, in vivo, DBD must fold in an environment where free Zn2+ concentration is low and its
65 humans evolved to survive in hostile dynamic environments where goal availability and value can chang
66 oward understanding bacterial growth in many environments where growth rate is limited by the availab
67 directly investigated in vitro in a cellular environment where hepatic metabolism was well maintained
68 erefore not required for survival in natural environments, where heteromeric acetyl-coenzyme A carbox
69 rved in plaque macrophages in the regression environment where high levels of CCR7 expression are obs
70 assay design in an automated high-throughput environment, where high coverage of potentially thousand
71 significantly to high diastolic stiffness in environments where high ADP and increased diastolic [Ca(
72 red by a number of challenges, especially in environments where high methane concentrations preclude
73 ingiva - a constantly stimulated and dynamic environment where homeostasis is often disrupted, result
74 of microbial carbon cycle in deep subsurface environments where hydrogen and sulfate are present.
75  marrow cells, indicated that in a recipient environment where IFN-gamma cannot exert its effects, th
76 f vascular cells therefore require realistic environments where in vivo mechanical loading conditions
77  Fairness preferences are advantageous in an environment where individuals are in strong competition
78  system is important for survival in natural environments, where individuals are frequently exposed t
79  of restoring axonal growth within an injury environment where inhibitory molecules from damaged myel
80 eby minimizing exposure to the extracellular environment where it could be destroyed by host immune m
81 daptation of H. pylori to the unique gastric environment where it is found.
82  expression was determined by the intestinal environment where it served a stimulatory function leadi
83 ally, Frmpd1 may position AGS3 in a membrane environment where it then interacts with Galphai in a re
84 r demonstrated to be exposed to the external environment, where it could facilitate interactions with
85 bii (serotype A), which is widespread in the environment, where it is primarily associated with pigeo
86 ase cholera, but it also persists in aquatic environments, where it displays an expression profile th
87 s life cycle, V. cholerae persists in marine environments, where it forms surface-attached communitie
88 ns contain copper in a range of coordination environments, where it has various biological roles, suc
89 onments, being particularly abundant in soil environments, where it is predicted to occur in up to 76
90 ent in virtually all terrestrial and aquatic environments, where it participates in redox reactions w
91 has strong dependency on the pH value of the environment, where its peak undergo noticeable shift as
92 munoprecipitation assay revealed that, in an environment where K-Rta is overexpressed and in the abse
93 sed by an oligotroph when confronted with an environment where key macronutrients are sparse.
94 ence of leaders increases colony survival in environments where leader-follower dynamics occur.
95                   Plants that are adapted to environments where light is abundant are especially sens
96 pecies using these photoreceptors in aquatic environments, where light color ratios are influenced by
97  behavior of biological microorganisms in an environment where local symmetry is broken (as often enc
98 its many Gram-negative bacteria to thrive in environments where low soluble iron concentrations would
99 ions that reflect their native intracellular environments where macromolecular crowding can drastical
100 o demonstrate extreme endurance in a hypoxic environment, where maintenance of Sa(O(2)) is crucial to
101 egrate diverse signals that guide E. coli to environments where maximal energy is available for growt
102 tabolic flexibility may be important in many environments where methane and short-chain alkanes co-oc
103 tion, including the speciation of mercury in environments where methylation occurs and the processes
104 lent ion was bound in a partially dehydrated environment where Mg2+ could not easily compete for bind
105  of 129/SvJ mice was studied using 'enriched environments' where mice receive complex inanimate and s
106 ere nanometers apart and probed in identical environments, where mineralization is proved to require
107 dynamics are also relevant to other cellular environments where mobile species undergo slow diffusion
108  can be used for application in more complex environment where more number of commands is to be used
109 relied on to provide prolonged protection in environments where mosquito-borne diseases are a substan
110 xcess of sodium cations as well as in acidic environment where most alternative adsorbents with oxyge
111 ity to divide for long periods of time in an environment where most of the cells are quiescent.
112 ormation is severely hampered in the natural environment where most plastic debris accumulates.
113 gi are ubiquitous components of indoor human environments, where most contact between humans and micr
114 volution in stochastic, spatially structured environments, where movement and dispersal are under sel
115 ent uplift of the northern Andes, the upland environments where much of this rich endemic flora is fo
116 es have been confined largely to high-stress environments where multicellular organisms are rare.
117                          In real-life visual environments, where multiple objects compete for process
118 aradox of bet-hedging-why does it persist in environments where natural selection necessarily acts to
119  diseases as well as the intensive care unit environment where noise and frequent therapeutic/diagnos
120 e important to DNA metabolism, especially in environments where nucleosides are freely available to b
121          The ribosome exit site is a crowded environment where numerous factors contact nascent polyp
122                     Bacteria often encounter environments where nutrient availability is limited, and
123                                   In aquatic environments where nutrient supply and grazing pressure
124 n oxidant in carbon cycling mainly to sunlit environments where *OH is produced photochemically, but
125         Nanoemulsions and microemulsions are environments where oil and water can be solubilized in o
126                                In a chemical environment where oligomer ligation is possible, such or
127 stems are often studied in "well-controlled" environments where only a single input is varied, potent
128                               In the natural environment where organic ligands are ubiquitous, classi
129 other Thermococcus species in hot subsurface environments where organic substrates are present, S deg
130  catheters, in cystic fibrosis, and in other environments where P. aeruginosa biofilms are a persiste
131            Online virtual worlds, electronic environments where people can work and interact in a som
132          Most bacteria live in ever-changing environments where periods of stress are common.
133 atoms are the main primary producers in this environment, where photosynthesis is limited by low conc
134 nstrated that C. glabrata is limited from an environment where phytic acid is the only source of phos
135 aining to the hydrodynamics of water-limited environments where plant-plant interactions and communit
136 nd environmental applications, especially in environments where plasmids and antibiotic selection are
137 peutic small molecules in a disease-cellular environment where potentially disrupted pathways are exp
138 encountered in the deep sea and sub-seafloor environments, where pressures reach the kilobar (100 MPa
139 associated with more productive and seasonal environments, where prolonged parent-offspring associati
140               Primates live in highly social environments, where prosocial behaviors promote social b
141 VEPRs in a high quality virtual reality (VR) environment where real and virtual foreground objects se
142 about their partners, but survives in richer environments where relevant details about partner past b
143 lation and community dynamics of microbes in environments where resident communities are perturbed, s
144  larger genome-sized species may dominate in environments where resources are scarce but diverse and
145  maximum aH2O for Meridiani Planum and other environments where salts precipitated from martian brine
146 in dispersed environments, but not in patchy environments-where search was area-restricted.
147            It is normal microflora in marine environments, where seawater and molluscan shellfish are
148  expected to make their way into the aquatic environment where sedimentation of particles will likely
149  offspring are grown in their maternal light environment, where seeds typically disperse.
150           Control of behavior in the natural environment where sensory stimuli are abundant requires
151 many physically and chemically heterogeneous environments where signal molecules are transported prim
152  consistent with the broad range of geologic environments where slow earthquakes are observed.
153 se pathways help to define the physiological environment where stem cells reside, and how perturbatio
154 We present evidence that microaerobic marine environments (where steroid biosynthesis was possible) c
155                                Additionally, environments where substances are used, such as drinking
156 h more stressful conditions in their natural environments where survival and competitive fitness depe
157                                           In environments where switching is less frequently required
158 istence for a model of dispersal in a patchy environment, where temporal heterogeneity arises from en
159 Antimicrobial prescribing is performed in an environment where the behavior of clinical leaders or se
160 g increasingly oxygen-deficient states in an environment where the cobaltite would normally be fully
161 e solution, which provides a high dielectric environment where the Coulomb potential between charges
162               Humankind will benefit from an environment where the emergence of completely new ideas
163 L 14mer is important for its stability in an environment where the functional ligands of the chaperon
164 entration and matrix density that creates an environment where the glycolytic phenotype has a growth
165 n in emulsion creates a spatially structured environment where the growth-limiting substrate is priva
166 mplants must be active in the dental implant environment where the implant is bathed in the glycoprot
167  ecological benefits on A. tumefaciens in an environment where the inducing molecules are known to be
168  (HIV-1) genome depends on the intracellular environment where the integrate viral DNA is regulated b
169 on the occurrences of NPF events in an urban environment where the majority of precursor gases origin
170 tivity that represented the locations in the environment where the memory was initially encoded.
171 er protein-damaging conditions, acting in an environment where the overall transcription is silenced.
172 fter a considerably long time in the crystal environment where the packing prevents complex dissociat
173 c insect symbiotic bacteria inhabit a static environment where the requirement for sensory functions
174 s ring) and allows it to fold in a protected environment where the risk of aggregation is reduced.
175  duplexed "closed" structures, and create an environment where the smallest, most stable structure is
176 n 10 g/L, yet proteins function in a crowded environment where the solute concentration can exceed 40
177 rbed onto mineral surfaces exist in a unique environment where the structure and dynamics of the prot
178 pulmonary status, and vice versa, creates an environment where the whole patient can heal and recover
179 c lineages, yet is crucial in the testicular environment, where the basal membranes of adjacent polar
180                          A two-phase solvent environment, where the cations involved in the exchange
181 cal relationship between an organism and its environment, where the latter more substantially influen
182                             However, in this environment, where the light field is directional (and t
183 a disrupts place cell activity in a familiar environment, where the map is expected to be stable.
184                             In a multi-agent environment, where the outcomes of one's actions change
185 lia control is strongest in an unpredictable environment, where the prefrontal cortex plays an import
186 Learning treatment experienced a predictable environment, where the spatial location, taste, and colo
187  treatment developed in a temporally varying environment, where the spatial location, taste, and colo
188 uding crops, forests and algae, must grow in environments where the availability of light energy fluc
189                                   In natural environments where the concentration of glucose is high,
190 e to U(IV) and U(VI) in uranate coordination environments where the coordination number of U is less
191  repairing damaged proteins in extracellular environments where the cytosolic enzyme is not normally
192 ivities of IS elements heavily depend on the environments where the host organisms live; (b) the numb
193 tionality and have been proposed for extreme environments where the interfaces are expected to promot
194 but much greater genetic variation, in novel environments where the limiting nutrient differed from g
195 l fitness gains was also seen in those novel environments where the limiting nutrient shared uptake m
196 tion of secondary structure in heterogeneous environments where the peptides are a minor component of
197 r prepare their offspring to cope with later environments where the same stressors are experienced.
198 for the oxidation of uranium in water vapour environments where the transport of hydroxyl species and
199 ls usually have to make decisions in dynamic environments where the value and the availability of an
200 als for contact with living systems in space environments, where the effects of heavy ionizing partic
201  the result of it originating in terrestrial environments, where the pterosaur fossil record has trad
202  Unfortunately, many people are living in an environment where their circadian system is challenged b
203 released during product life cycles into the environment, where their effects are uncertain.
204 etain horizontally acquired plasmids even in environments where their accessory genes are not immedia
205  the evolution of learning rules in a simple environment where there exists an optimal rule of simila
206 measurable effect on fitness in a new benign environment where there is little selection.
207 ng the laboratory findings into the clinical environment where these markers are used in clinical dec
208 is now becoming clear that the dynamic lipid environment, where these proteins operate, also plays a
209 etabolic activity of Thaumarchaeota in polar environments, where these microorganisms are particularl
210 nd recruiting these cells to the local wound environment where they are able to accelerate repair.
211 t and improve antibodies in a mammalian cell environment where they are naturally made.
212 e care unit (ICU) nurses work in a demanding environment where they are repetitively exposed to traum
213 ells and are released into the extracellular environment where they can be disseminated into the bloo
214 ophages locked cancer cells in this isolated environment where they fail to form tumours despite reta
215 d expression systems, away from the cellular environment where they function physiologically, a conne
216        Male outbred mice were placed into an environment where they had previously experienced 2 mg/k
217  units thus reticulated become part of a new environment where they have (a) lower degrees of freedom
218 ) is thought to bind sensory events with the environment where they took place.
219  bacilli are released into the extracellular environment, where they are ingested by neighboring pare
220 her they affect microbial performance in the environment, where they are not needed, remains experime
221  among the most reactive minerals within the environment, where they control the bioavailability of c
222 ly prevented from entering the extracellular environment, where they could be disruptive.
223 he surface of most eukaryotic cells into the environment, where they function in a variety of sensory
224       Plants exist in a complex multitrophic environment, where they interact with and compete for re
225 toxins in particular can be emitted into the environment, where they may contribute to the complex mi
226 halate (PET) are extremely persistent in the environment, where they undergo very slow fragmentation
227 re more and more likely to be present in the environment, where they will associate with organic micr
228 ans produce more of their spores sexually in environments where they are less fit, resembling a hypot
229 ensing-controlled genes are not activated in environments where they are not useful.
230 ability of these materials in the subsurface environments where they form remains unproven.
231 ion how animals find food in dynamic natural environments where they possess little or no knowledge o
232 who were reared in extremely aberrant social environments where they were deprived of the kind of car
233 ic and lived in freshwater swamp or riverine environments, where they grazed on freshwater vegetation
234 of species from their native ranges to alien environments, where they may cause substantial environme
235 ric bacteria are frequently found in aquatic environments, where they may pose a risk to human health
236  widespread in modern and fossil hypersaline environments, where they provide a unique sedimentary ar
237 s, survival, and reproduction in the natural environments where this polymorphism evolved.
238 n thymocyte development in an "in vivo-like" environment where toxic metabolites accumulate in situ.
239 y structure of VacA within the intracellular environment where toxin cytotoxicity is elaborated, we e
240 he control of T7 RNA polymerase and to other environments where transcription and translation can be
241                  It is often used in aquatic environments, where transmission telemetry is difficult.
242                             Importantly, the environment where tumours evolve provides a unique sourc
243       Marine phytoplankton inhabit a dynamic environment where turbulence, together with nutrient and
244 rther improvements, particularly in reducing environments where U(IV) predominates.
245 ructures, particularly in thiol-rich surface environments where UV-absorbing polycyclic aromatic hydr
246  The drug delivery area needs to nurture the environment where vastly different ideas can be tested,
247 ch are particularly important in terrestrial environments where vertical undulations can regulate sub
248 nnexin II is secreted into the extracellular environment, where, via interactions with specific prote
249 ndamentally multisensory process in everyday environments, where vision modulates even this largely a
250  critical to sustaining high productivity in environments where water and energy are plentiful.
251 kely to occur in either an anoxic or euxinic environment where Zn concentrations would be vanishingly

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