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1 age- (or stage-) structured population in a fluctuating environment.
2 s generalize to any evolving population in a fluctuating environment.
3 outer membrane in response to a continually fluctuating environment.
4 utmost importance for plants' survival in a fluctuating environment.
5 rnal effects (captured by the matrix M) in a fluctuating environment.
6 The interior of cells is a highly fluctuating environment.
7 related motions owing to interactions with a fluctuating environment.
8 d survival in the face of stress caused by a fluctuating environment.
9 oupling while decoupling each qubit from its fluctuating environment.
10 tion of single-celled organisms growing in a fluctuating environment.
11 nism and the information available about its fluctuating environment.
12 a subsystem that is elastically coupled to a fluctuating environment.
13 ture of signal transduction improvement by a fluctuating environment.
14 ected to evolve in response to unpredictably fluctuating environments.
15 ility of size and form in response to widely fluctuating environments.
16 integrated to determine mature phenotypes in fluctuating environments.
17 All organisms live in temporally fluctuating environments.
18 ve mechanism is robust in a wide spectrum of fluctuating environments.
19 compared to microbial assemblages from more fluctuating environments.
20 e sensing is common in bacteria that live in fluctuating environments.
21 standing microalgal adaptation to stressful, fluctuating environments.
22 tory evolution by facilitating adaptation to fluctuating environments.
23 ght to play a particularly important role in fluctuating environments.
24 cally to sustain a stable internal milieu in fluctuating environments.
25 lly active and dormant states in response to fluctuating environments.
26 communities with small population sizes and fluctuating environments.
27 ecision is always improved, even in strongly fluctuating environments.
28 ory significantly improves sensing in weakly fluctuating environments.
29 sential process occurs in cells that live in fluctuating environments.
30 al reproduction, in temporally and spatially fluctuating environments.
31 aintain the global physiological response to fluctuating environments.
32 y be considered as a bet-hedging strategy in fluctuating environments.
33 ing many biological networks which thrive in fluctuating environments.
34 ely confers versatility as microbes adapt to fluctuating environments.
35 nd how a population optimizes its fitness in fluctuating environments.
36 pre-existing genetic variation to thrive in fluctuating environments.
38 on model to show that, during growth in such fluctuating environments, a dynamically heterogenous bac
39 to phenotypically structured populations in fluctuating environments across different evolutionary r
40 he strategies that allow life to flourish in fluctuating environments and demonstrate the importance
41 opulations may be important in adaptation to fluctuating environments and in the persistence of bacte
42 enotypic diversity that promotes survival in fluctuating environments and the evolution of new traits
47 asticity can mitigate adaptive trade-offs in fluctuating environments but how plasticity arises is li
48 or genome copy number supports adaptation to fluctuating environments but is also associated with fit
49 olated populations can not only persist in a fluctuating environment, but may be able to adapt withou
52 d independent reporters embedded in a shared fluctuating environment can be used to identify intrinsi
53 both benign and harsh, as well as stable and fluctuating, environments can favour the evolution of co
55 s of genes raises the possibility that, in a fluctuating environment, cells may gain an advantage if
57 estigate how the fate of a new mutation in a fluctuating environment depends on the dynamics of envir
58 strated how conditional gene regulation in a fluctuating environment drives dilution of condition-spe
59 mplest model of a single solute species in a fluctuating environment exhibits isosbestic points, van'
60 sing variations is quantified for a range of fluctuating environments, following an approach that lin
62 ustness of quantum states in the presence of fluctuating environments in other nanoscopic complexes a
63 interaction between a quantum system and its fluctuating environment leads to decoherence and is the
65 o the strength of selection, suggesting that fluctuating environments might select for high-activity
69 an help explain how natural selection across fluctuating environments produces networks that enable l
73 In Part I of this study, we predicted that fluctuating environments select for RPV if transitions b
74 tion that organisms inhabiting unpredictably fluctuating environments should suffer more extinction t
76 ula: see text]), life-history evolution in a fluctuating environment tends to maximize the average po
78 ecies or genetic clones) cannot coexist in a fluctuating environment unless relative fitness is negat
79 we studied genetic constraints in fixed and fluctuating environments using the Escherichia coli lac
80 growth and dispersal of a model species in a fluctuating environment, we test three nature reserve ge
81 lity of H. pylori to adapt to its constantly fluctuating environment when it is establishing infectio
82 able phenotypic variations in a periodically fluctuating environment with a cycle length between two
83 system to facilitate SSC homeostasis in the fluctuating environment within the seminiferous tubule.
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