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1  retina, and how retinal diseases may affect oxygen response.
2 D enzymes are key regulators of hypoxia (low oxygen) response.
3 l data on the outcome impact of brain tissue oxygen response and asymmetric patterns of cerebral auto
4        The relationship between the negative oxygen response and neural activity is relatively consta
5 ies: cell proliferation, neural development, oxygen responses and muscle capacity.
6 ces in their mechanics, migration, adhesion, oxygen response, and proteomic profiles.
7 ution NO concentration, and effect on enzyme oxygen response (apparent KmO2).
8  show that the negative but not the positive oxygen response changes in an approximately linear manne
9                   Further analyses using low-oxygen response element (LORE)-CYC1-lacZ fusion reporter
10 hanism and P(III) is activated by a putative oxygen response element.
11  regulation is possible for its activity and oxygen response in biologic settings.
12 cent studies show that a neural globin tunes oxygen responses in the nematode Caenorhabditis elegans.
13 is regulon capable of coordinating light and oxygen responses in the three major branches of the evol
14 w that the amplitude of the initial negative oxygen response increases with stimulus size but neural
15 oupling between neural activity and negative oxygen responses is well described by a power law functi
16 ) protein plays a central role in the global oxygen response of a variety of bacteria.
17                        Comparison of the low oxygen response of tissues characterized by different le
18 tion represents a mechanism by which the low oxygen response pathway has assimilated complex new func
19 oNOQP in R. capsulatus is not flanked by the oxygen response regulator fnr, which is located upstream
20         Moreover, both negative and positive oxygen responses saturate at high stimulus contrast leve
21                             To recognize low-oxygen responses that are evolutionarily conserved versu
22 ity of the degree of hypoxemia, the arterial oxygen response to 100% oxygen administration, and the m
23 nit extracellular neural activity and tissue oxygen responses to visual stimuli of various durations

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