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1 developmental sensitivity to nitrogen, a key environmental signal.
2 gnal transduction for enhanced perception of environmental signals.
3 g and rate of gene expression in response to environmental signals.
4 s structure can be remodelled in response to environmental signals.
5 "encode" and subsequently "decode" different environmental signals.
6 d disease, and response to pharmacologic and environmental signals.
7 cells can metabolically adapt in response to environmental signals.
8 n ability to sense, evaluate, and respond to environmental signals.
9 ment, is regulated tightly by endogenous and environmental signals.
10 matic cells in response to developmental and environmental signals.
11 , albeit with altered responses to different environmental signals.
12 esponse to presence of a host plant or other environmental signals.
13 sensing systems to appropriately respond to environmental signals.
14 on while maintaining sensitivity to external environmental signals.
15 in enhancers in response to cell lineage and environmental signals.
16 as sensors for a wide range of cellular and environmental signals.
17 n is appropriate to myriad developmental and environmental signals.
18 RNAs (sRNAs) in response to stress and other environmental signals.
19 e endogenous cellular mechanisms to external environmental signals.
20 Sensory systems can adapt to different environmental signals.
21 longation is controlled by many hormonal and environmental signals.
22 are dictated by different physiological and environmental signals.
23 es growth regulation by several hormonal and environmental signals.
24 tomatal aperture according to endogenous and environmental signals.
25 th morphologically and in their responses to environmental signals.
26 oroplast integrates, decodes and responds to environmental signals.
27 ontrolling cellular behaviors in response to environmental signals.
28 hose timing is affected by developmental and environmental signals.
29 of growth in bacteria in response to diverse environmental signals.
30 through gene manipulation or encounters with environmental signals.
31 ynaptic strength and duration in response to environmental signals.
32 differential responses to developmental and environmental signals.
33 ion, and it responds to largely unidentified environmental signals.
34 ssing units to detect and integrate multiple environmental signals.
35 n transcriptionally regulated by a number of environmental signals.
36 ally synthesized and degraded in response to environmental signals.
37 ved in cells responding to developmental and environmental signals.
38 f plant growth in response to endogenous and environmental signals.
39 e happened within the cell or in response to environmental signals.
40 ion and magnitude of phenotypic responses to environmental signals.
41 ains, with several chemoreceptors matched to environmental signals.
42 entraining the circadian clocks to external environmental signals.
43 ading to the idea that most are activated by environmental signals.
44 oot development and response to internal and environmental signals.
45 ation and for mediating precise responses to environmental signals.
46 motes optimal responses to developmental and environmental signals.
47 biological networks to accurately interpret environmental signals.
48 ategy used by the cell to respond rapidly to environmental signals.
49 nitrifying bacteria in response to different environmental signals.
50 and regulation mediate plastic responses to environmental signals.
51 dormancy of her progeny seed in response to environmental signals.
52 estrate their homeostasis and interplay with environmental signals.
53 d global regulators in response to different environmental signals.
54 cks which in turn are entrained to different environmental signals.
55 ate chloroplast transcription in response to environmental signals.
56 cally distributed ILCPs in response to local environmental signals.
57 pendent on developmental stage, genotype and environmental signals.
58 d neurogenesis in response to physiology and environmental signals.
59 activity is controlled by developmental and environmental signals.
60 drA acts upstream of SadB, linking SadB with environmental signaling.
62 chinery permits mammalian cells to integrate environmental signals(2); however, how these pathways ar
65 crossdating must be applied to fully resolve environmental signals, a point we underscore as the fron
66 Effective decision-making can involve using environmental signals about the possible good and bad ou
67 opsis (Arabidopsis thaliana), endogenous and environmental signals acting on the shoot apical meriste
70 ulated dynamically by extra-follicular macro-environmental signals, allowing stem cells to adapt to a
71 cates that genes involved in the response to environmental signals also respond to AP2, suggesting th
74 gement could allow for information from both environmental signals and cell-to-cell communication to
76 n, these permeases may help Devosia to sense environmental signals and in chemotaxis at stressed habi
78 ores their differential capacities to detect environmental signals and influence the inflammatory mil
79 s problem, because they lie between external environmental signals and internal physiological respons
80 ator of cell growth that responds to diverse environmental signals and is deregulated in many human d
82 transcriptional response regulator to detect environmental signals and modulate gene expression for a
88 imary cilia that can detect several kinds of environmental signals and then transmit this information
90 uginosa can sense and respond to a myriad of environmental signals and utilizes a system of small mol
92 ability can compromise cellular responses to environmental signals, and it can also enlarge the reper
93 not abolish the branching response to these environmental signals, and neither signal is dominant ov
94 ed by complex interactions of endogenous and environmental signals, and the knowledge required to ach
95 of heterogeneous soil environments, diverse environmental signals are integrated into root developme
96 endogenous developmental programs, external environmental signals are integrated to modulate organ g
97 onditions, but in certain polycarpic plants, environmental signals are locally gated by the presence
98 challenge because systems-level estimates of environmental signals are only accessible indirectly as
101 2/3 complex, which might help to explain how environmental signals are translated into changes in mor
102 structed that can detect and integrate three environmental signals (arsenic, mercury and copper ion l
103 cess that is influenced by genetic variants, environmental signals, as well as the nature of the spec
105 puts from intrinsic follicular and extrinsic environmental signals based on universal patterning prin
107 are sensors for a wide range of cellular and environmental signals, but elucidating how these channel
108 in that the pea aphid mother experiences the environmental signals, but it is her offspring that are
109 ptor-like kinases to perceive endogenous and environmental signals, but little is known about their i
111 be highly plastic cells that can respond to environmental signals by changing their phenotype and fu
113 mporal coding theory where information about environmental signals can be encoded, at least partially
116 tches (RNAs that change shape in response to environmental signals), catalysis, and more roles that a
118 is is an important pathway through which the environmental signals control primary dormancy depth.
120 rphogenesis and shows that developmental and environmental signals converge on a common transcription
121 During this process, multiple genetic and environmental signals coordinately regulate protein expr
122 arget of rapamycin (mTOR) integrates various environmental signals/cues to regulate cell growth, prol
123 degree to which developmental programmes or environmental signals determine physiological phenotypes
124 Temperature during seed set is the dominant environmental signal determining the depth of primary do
126 ells differentiate), some respond sharply to environmental signals (e.g. ultrasensitivity), and some
127 on to ultimately regulate ABA content or how environmental signals (e.g., light and cold) might direc
128 ater flexibility when faced with conflicting environmental signals (e.g., seasonal changes in photope
129 ed factors, unpredictability of maternal and environmental signals early in life influences trajector
130 est that, in addition to a range of chemical environmental signals, EHEC is capable of sensing and re
131 tinct transcriptional responses to different environmental signals elicit distinct modes of assembly
132 control FT expression in response to diverse environmental signals, enabling flowering and other deve
133 Regulation of flowering by endogenous and environmental signals ensures that reproduction occurs u
134 hysiology in multicellular organisms and how environmental signals entrain clocks to geophysical time
135 that it may derive from specific patterns of environmental signals, especially those derived from the
136 sence of light by itself is not a sufficient environmental signal for early seedling development [4,
139 d in cyanobacteria that responds to multiple environmental signals, has recently been implicated in t
141 ession post-transcriptionally in response to environmental signals; however, the molecular mechanisms
142 obal regulators that can integrate different environmental signals (i.e., glucose starvation and the
143 Understanding how developmental cues and environmental signals impact AM development will enable
144 that provide new insights into ways in which environmental signals impact Th17 cell development and f
145 expansion; however, the mechanisms by which environmental signals impinge upon microtubule organizat
146 of KNDy neurons to integrate endogenous and environmental signals important for the regulation of re
147 ur results underscore the role of iron as an environmental signal in multiple signaling pathways that
148 hares homology with proteins associated with environmental signaling in some plants, we hypothesized
149 that multivariate mutual information between environmental signals in a given environment correlates
150 he moss Physcomitrella patens [2] respond to environmental signals in a similar way to those of flowe
153 It also considers the role of the IGFs as environmental signals in linking resource availability t
154 for cells to integrate genetic programs with environmental signals in order produce an adaptive and c
155 eria can be designed to sense and respond to environmental signals in order to consume harmful compou
158 ogether, these results provide evidence that environmental signals in the presence of high dietary sa
159 stem to integrate multiple developmental and environmental signals in the regulation of flowering ini
160 l differentiation, is a response to multiple environmental signals including the cytokine milieu.
161 well positioned in host tissue for detecting environmental signals, including allergens, leading to a
162 igella utilizes adhesins that are induced by environmental signals, including bile salts, encountered
163 ng nervous system is remarkably sensitive to environmental signals, including disruptive toxins, such
164 ides rapid responses to various cellular and environmental signals, including energy and nutrient ava
166 synchronized with a plant's surroundings via environmental signals, including light and temperature.
167 mancy and germination potential modulated by environmental signals, including temperature and soil mo
169 phagocytes from the bloodstream, yet whether environmental signals influence phagocyte longevity in t
170 evious studies indicated that light is a key environmental signal inhibiting germination in dormant g
171 eveal mechanisms by which disease-associated environmental signals instruct resident and recruited ma
172 a key question in the field: how are complex environmental signals integrated to enforce binary, orga
173 tion of the molecular mechanisms that define environmental signal integration is key to the developme
174 ients permit information acquisition when an environmental signal interacts with specialized protein
175 eprograming of genes central for transducing environmental signals into cellular responses, leading t
176 grouped 21 of the known SPI1 regulators and environmental signals into distinct classes on the basis
177 to monitor their surroundings and translate environmental signals into effector functions that regul
180 inates and is orchestrated by endogenous and environmental signals involved in the regulation of axil
181 tropical ecosystems and ii) determine which environmental signal is dominating cellulose delta(18)O
183 tes virulence gene expression in response to environmental signals, is critical for fine-tuning HlyA
184 shape, in relation to the myriad of dynamic environmental signals, is key to understanding normal an
185 directly links the perception of an external environmental signal (light) and internal hormonal signa
187 ractions between intrinsic heterogeneity and environmental signals may help achieve developmental out
188 se expression is regulated by endogenous and environmental signals, may enhance our understanding of
190 havioral response to suit a range of dynamic environmental signals motivates the use of biological ma
191 ydia-infected cells showing the effect of an environmental signal on transcription factor-DNA binding
192 propose that the induction of IGS lncRNA by environmental signals operates as a molecular switch tha
194 (sRNAs) are induced in response to specific environmental signals or stresses and act by base-pairin
195 That is, do they respond independently to environmental signals, or require interactions with each
196 LA proteins mediate the response to multiple environmental signals, our results provide an initial mo
201 al to accurately predicting how stresses and environmental signals propagate through the hydrologic s
202 into specialized effector subsets based upon environmental signals propagated by the cytokine milieu.
208 is a critical element in the transduction of environmental signal(s) required for HmsD-dependent biof
210 , it has not been fully utilized for complex environmental signal sensing, integration, and actuation
211 ater flexibility when faced with conflicting environmental signals.SIGNIFICANCE STATEMENT A master ci
212 ts are expected to be sensitive to different environmental signals such as changes in photoperiod, te
214 ation feedback loops, which are entrained by environmental signals such as light and temperature to a
216 xpression of their respiromes in response to environmental signals such as oxygen, nitrate and nitric
217 ents and must monitor and respond to various environmental signals such as the availability of iron,
218 o perceive and integrate both endogenous and environmental signals, such as carbohydrate and hormonal
219 ridines in mRNA are regulated in response to environmental signals, such as nutrient deprivation in y
221 he level of toxin synthesis is influenced by environmental signals, such as phosphotransferase system
222 ne-bound PMMs appear to comprise yet another environmental signalling system that regulates the produ
223 ility and defines phosphate limitation as an environmental signal that activates ESX-5 secretion.
225 , its production could serve as an important environmental signal that facilitates species evolution
228 carbon donor for photosynthesis but also an environmental signal that regulates stomatal movements a
229 ted that their function is to titrate out an environmental signal that would otherwise promote untime
230 Group 3 innate lymphoid cells (ILC3s) sense environmental signals that are critical for gut homeosta
233 west coast estuaries and find heterogeneous environmental signals that characterize each estuary, su
235 Their production of TSP-1 is regulated by environmental signals that establish a threshold for the
236 able of spatially and temporally controlling environmental signals that guide vascular fate and assem
238 URs are key effector outputs of hormonal and environmental signals that regulate plant growth and dev
242 e importance of PIF4 in integrating multiple environmental signals, the mechanisms by which PIF4 cont
243 cells integrate complex genetic, immune, and environmental signals, therefore alterations in their fu
244 ry protein FleQ that is in turn regulated by environmental signals through the Gac/Rsm and SadB pathw
245 e that S. epidermidis is "sensing" disparate environmental signals through the modulation of TCA cycl
246 a icosahedral complex that transmits diverse environmental signals to activate the general stress res
247 scriptional control by sRNAs allows multiple environmental signals to affect synthesis of the transcr
249 amycin complex 1 (mTORC1) integrates diverse environmental signals to control cellular growth and org
250 ghlight mechanisms bacteria use to integrate environmental signals to control complex adaptive proces
251 hitecture that responds to developmental and environmental signals to control flowering time and the
252 e pathways by which mature stomata integrate environmental signals to control immature epidermal cell
253 of SEC14L-PITPs integrate developmental and environmental signals to control SEC14L-PITP-mediated me
254 thway that integrates both developmental and environmental signals to control tuberization and is the
258 lt, 3D root architecture is shaped by myriad environmental signals to ensure resource capture is opti
259 secondary metabolite in response to various environmental signals to give it an advantage over its c
260 te molecule for sensing or transducing these environmental signals to initiate gametogenesis remains
261 hat, working with Tbx20, integrated multiple environmental signals to maintain ion channel gene expre
263 ne fish species to illustrate sensitivity of environmental signals to modest dating error rates.
265 t an organismal level, integrating extrinsic environmental signals to orchestrate ILC3 responses.
266 g-presenting dendritic cells (DCs) interpret environmental signals to orchestrate local and systemic
270 broad range of biophysical, biochemical, and environmental signals to provide critical insights into
272 rs transduce, store, retrieve, and integrate environmental signals to regulate behavior are poorly un
273 d AHR integrate immunological, metabolic and environmental signals to regulate the immune response.
276 gene expression by transducing extracellular environmental signals to the cytoplasm via inner-membran
278 bacteriophytochrome-like protein CikA passes environmental signals to the oscillator by directly bind
279 s a 1.8-MDa cytoplasmic complex that conveys environmental signals to the sigma(B) stress factor of B
281 ircuitries coupling extracellular quorum and environmental signals to transcription of T4SS genes are
282 cess controlled by intrinsic programs and by environmental signals transduced by a variety of plant h
283 ript analysis to explore the complexities of environmental signal transmission from the point of perc
285 and continuously sense, process and react to environmental signals using their inherent signaling and
286 ld modulate the clock response to changes in environmental signals, we identified in a previous large
287 rmanent developmental changes vs. reversible environmental signals, we measured respiratory-related n
288 ells perceive a wide variety of cellular and environmental signals, which are often processed combina
289 tem for disentangling responses to different environmental signals, which balance carbon gain against
290 a role for metabolic activity in integrating environmental signals with activation-induced gene-expre
293 rlying mechanisms by which plants coordinate environmental signals with endogenous pathways are not f
294 ntinuous integration of spatial and temporal environmental signals with inherited information in the
295 s indicate the benefits for GAS to integrate environmental signals with intercellular communication p
296 bout the intersecting pathways that link the environmental signals with rhythms in cellular metabolis
297 opulation density with other physicochemical environmental signals within the broader c-di-GMP signal
299 oute cells to divergent fates in response to environmental signals without modification of native gen
300 ormation, and other processes in response to environmental signals, yet little is known about the fun
301 y) is governed by a variety of antigenic and environmental signals, yet the observed clone sizes foll