Related by context. All words. (Click for frequent words.) 66 Circadian rhythm 65 circadian pacemaker 64 autoregulation 63 Bmal1 63 hypothalamic pituitary 63 hypothalamic pituitary axis 63 hyperexcitability 63 PER2 62 circadian rhythmicity 62 locomotor activity 62 endocannabinoid signaling 62 intracellular pH 62 vagal tone 62 cortical activation 61 neuronal activity 61 circadian clocks 61 beta adrenergic receptors 61 pineal 61 oncogenic transformation 61 FGFs 61 photoperiodic 61 suprachiasmatic nuclei 61 oscillatory behavior 61 hyperactivation 61 overactivation 61 modulatory 61 adrenocortical 60 Circadian rhythms 60 suprachiasmatic nucleus 60 circadian cycle 60 electroencephalographic 60 rCBF 60 cardiac autonomic 60 neuronal signaling 60 gamma oscillations 60 transcriptional repressor 60 prefrontal cortical 60 BMAL1 60 synaptic function 60 CEACAM1 60 epigenetically 60 circadian 60 hypothalamic pituitary adrenal axis 60 oscillatory 60 hippocampal function 59 HPA axis 59 potentiation 59 glycogen metabolism 59 ATPase activity 59 contractile 59 hypothalamic 59 GLUT4 59 GABAA receptors 59 tyrosine phosphorylation 59 calcium homeostasis 59 ERK signaling 59 transgene expression 59 maturational 59 intraventricular 59 baroreflex 59 cortisol secretion 59 photic 59 ERK1 2 59 neural substrates 59 bioelectrical 59 corticospinal 59 glucocorticoid hormones 59 hormone secretion 59 Thyroid hormone 58 lung epithelium 58 striated muscle 58 baroreceptor reflex 58 ligand receptor 58 processive 58 transcriptional activity 58 steroidogenic 58 autophagic 58 sensorimotor 58 efferent 58 peripheral insulin sensitivity 58 hypothalamus pituitary 58 photoperiod 58 glucose homeostasis 58 inhomogeneity 58 SUMOylation 58 GH IGF 58 Purkinje cell 58 neuronal plasticity 58 baroreceptor 58 glutamate signaling 58 saccadic 58 thermoregulatory 58 circadian cycles 58 cyclic nucleotide 58 exocytosis 58 neuroanatomical 58 aerobic metabolism 58 homeostatic 58 sinus node 58 cortical excitability 58 catecholamine 58 neuronal circuits 58 electrophysiologic 58 DNA demethylation 58 nociception 58 rumen fermentation 58 glutamatergic 58 axonal transport 58 X chromosome inactivation 58 penile erection 58 circadian clock genes 58 oculomotor 58 hypocretin neurons 58 dopamine signaling 57 vasodilation 57 miRNA expression 57 AMPA receptor 57 circadian genes 57 neuritic 57 phenotypic expression 57 cholesterol homeostasis 57 astrocytic 57 endogenous opioid 57 electrical conduction 57 circadian rhythms 57 nonequilibrium 57 contractile function 57 FASPS 57 afferent 57 neurofilament 57 somatosensory cortex 57 interconversion 57 brain cortex 57 intermittent hypoxia 57 physiological adaptations 57 oscillation frequencies 57 epigenetic modifications 57 chemoreceptors 57 pulse amplitude 57 theta rhythm 57 coronary endothelial 57 autonomic nerves 57 neurite outgrowth 57 striatal neurons 57 downregulate 57 downregulation 57 globin genes 57 cellular prion protein 57 junctional 57 ACh 57 amyloid β 57 inhibitory neurotransmitters 57 P cadherin 57 endothelium dependent 57 beta1 integrin 57 autonomic dysfunction 57 neuronal synapses 57 nociceptive 57 adipocyte 57 p# activation 57 focal adhesions 57 hypothalamic pituitary adrenal HPA 57 theta waves 57 retinal neurons 57 GH secretion 57 Nampt 57 metabolizing enzymes 57 vagal 57 cortical neurons 57 autonomic nervous system 57 Purkinje cells 57 isoenzyme 57 inspiratory 56 STAT3 signaling 56 ionic currents 56 synaptic transmission 56 gastric distention 56 upregulating 56 motor neuron degeneration 56 eigenvalue 56 hyperalgesia 56 neuro transmitters 56 pleiotropic effects 56 serotonin signaling 56 hypothalamic pituitary gonadal HPG 56 mesolimbic 56 cerebral oxygenation 56 hindbrain 56 synaptic plasticity 56 actin dynamics 56 anterior temporal 56 carbohydrate metabolism 56 prestin 56 coactivators 56 morphogenetic 56 parasympathetic tone 56 tubule 56 neurotransmitter GABA 56 TRPV4 56 pressure natriuresis 56 umbilical vein 56 ERK2 56 nitric oxide synthase NOS 56 Hh pathway 56 atrioventricular 56 muscarinic receptors 56 IRE1 56 mitochondrial enzyme 56 RIP1 56 myofibroblast 56 diurnal cycle 56 CaMKII 56 intracellular signaling 56 mRNA expression 56 akinesia 56 circadian clock 56 flagellar 56 S nitrosylation 56 neuronal dysfunction 56 GABAergic 56 dephasing 56 protein acetylation 56 somatosensory 56 SAPAP3 56 homeostatic mechanism 56 hypometabolism 56 Notch signaling 56 TrkB 56 neuro endocrine 56 orthologous genes 56 repolarization 56 Hcrt 56 Androgen receptor 56 ciliary 56 brain neurochemistry 56 monoamine 56 epigenetic alterations 56 LIS1 56 differential gene expression 56 anterograde 56 gastric motility 56 ventromedial 56 pituitary hormone 56 melatonin secretion 56 connexin# 56 receptor subtypes 56 visuomotor 56 colocalization 56 misregulation 56 attentional blink 56 metabolic dysfunction 56 Hypothalamic 56 innervation 56 stomatal 56 neuronal migration 56 c Fos 56 brain neurotransmitter 56 desmosomes 56 heterozygotes 56 homeostatic mechanisms 56 AgRP 56 nephron 56 natriuresis 56 PECAM 1 56 microtubule dynamics 56 IFN γ 56 motoneurons 56 raphe 56 noradrenergic 56 morphogen 56 electrophysiological recordings 56 allopregnanolone 56 nociceptors 56 adrenal cortex 56 H#K#me# 56 neuronal function 56 synaptogenesis 56 dorsomedial 56 ectopic expression 56 melanocyte 56 vasodilatation 56 diurnal 55 Sgk1 55 catabolism 55 X inactivation 55 photobleaching 55 thermoregulation 55 translationally 55 IL 1β 55 protein p# 55 Jhdm2a 55 microglial 55 PI3K signaling 55 parkinsonian 55 Aâ 55 peristalsis 55 glutamate neurotransmission 55 telomerase activity 55 peroxisome 55 vasomotor 55 transferase 55 basal forebrain 55 cellular metabolism 55 cAMP signaling 55 ploidy 55 ouabain 55 amyloid deposition 55 dopamine depletion 55 fatty acid oxidation 55 Leydig cell 55 proapoptotic 55 superior colliculus 55 H#K# methylation 55 vascularisation 55 ERK pathway 55 linewidth 55 coronary microvascular 55 histone modification 55 organismal 55 autonomic nervous 55 fibril formation 55 SOCS3 55 thyrotropin 55 CD# expression [002] 55 eukaryotic cell 55 deterministic jitter 55 extraocular 55 proteolytic 55 oxidative metabolism 55 atherogenesis 55 chromosomal aberrations 55 hippocampal cells 55 glycolytic 55 retinal photoreceptors 55 cytoskeletal 55 myosins 55 neurological abnormalities 55 hypercapnia 55 PrPC 55 myelination 55 metabolite concentrations 55 neurohormone 55 neuro transmitter 55 rostral 55 pRb 55 #ß 55 parasympathetic 55 immunoreactivity 55 posterior cingulate 55 airflow limitation 55 fluorescence quenching 55 dependences 55 hypothalamus gland 55 organogenesis 55 intracellular signal transduction 55 IKK2 55 hyperarousal 55 Runx1 55 histone methylation 55 hamartomas 55 occipital cortex 55 erythropoiesis 55 gut motility 55 Dopaminergic 55 oxidative phosphorylation 55 homolog 55 Cdx2 55 hypoperfusion 55 baroreflex sensitivity 55 ERK activation 55 inhibitory transmitter 55 hormones neurotransmitters 55 striatal dopamine 55 brain hypothalamus 55 Parkinsonian 55 arousals 55 vestibular apparatus 55 octopamine 55 biogenesis 55 postural stability 55 neurohormonal 55 stoichiometry 55 anterior temporal lobe 55 tumorigenicity 55 circadian disruption 55 laterality 55 β cell 55 fractional shortening 55 mitochondrial oxidative phosphorylation 55 motion parallax 55 sensory neuron 55 piriform cortex 55 sarcomere 55 lymphangiogenesis 55 PTPN# 55 physiological mechanisms 55 NRF2 gene 55 Fig. 3b 55 adrenocorticotropic hormone 55 pineal glands 55 serine threonine kinase 55 stereopsis 55 downregulates 55 bistability 55 Skeletal muscle 55 eNOS 55 term potentiation 55 AV conduction 55 DNMT1 55 psychophysiological 55 evoked potentials 55 mitochondrial respiration 55 guanosine 55 RUNX3 55 pleiotropy 55 ß1 55 hippocampal neurons 55 STAT5 55 Fig. 2B 55 myoclonus 55 ^ sup ^ 55 connexin 55 lymphocyte activation 55 presynaptic 54 hypogonadotropic hypogonadism 54 estrogen receptor alpha 54 STAT1 54 Sonic hedgehog 54 mammalian circadian clock 54 neuromuscular junction 54 plasma lipids 54 lateralization 54 CPEB 54 conformational changes 54 nitrotyrosine 54 contractility 54 esophageal motility 54 stereochemistry 54 Cyclin E 54 growth hormone secretion 54 immunoreactive 54 male reproductive tract 54 modulation 54 oligomerization 54 Fig. 1C 54 corpus luteum 54 cholinergic 54 circuitries 54 tyrosine hydroxylase 54 COX2 54 inferior frontal 54 neuronal excitability 54 pro angiogenic 54 desynchronized 54 embryonic tissues 54 fatty acid metabolism 54 proteolysis 54 paramagnetic 54 adenylate cyclase 54 acyclic 54 Acetylcholine 54 perseverative 54 allostatic 54 orexin receptors 54 neuronal pathways 54 myogenic 54 vagus 54 chromatin remodeling 54 telomeric 54 affective psychoses 54 EGFR signaling 54 neurotransmission 54 NF kappaB activation 54 Wnt1 54 intestinal microflora 54 occludin 54 MT1 MMP 54 photoreceptor cell 54 splanchnic 54 mineralocorticoid 54 subcortical 54 neurotransmitters serotonin 54 compensatory mechanisms 54 nucleolar 54 physiologic 54 fluid shear 54 muscular contractions 54 DNA methylation patterns 54 physiological 54 KATP channels 54 neurotransmitter receptor 54 microdeletion 54 platelet activation 54 inhomogeneities 54 retinal ganglion cells 54 cytosolic 54 innate immune responses 54 redox reactions 54 microstructural 54 osteolytic 54 colonic motility 54 pathophysiological 54 da mage 54 parasympathetic nervous system 54 allergic inflammation 54 excitotoxic 54 myometrial 54 daytime alertness 54 upregulates 54 FGF2 54 diffusion coefficient 54 olfactory cues 54 Foxp3 54 genotoxic stress 54 antiapoptotic 54 diurnal rhythm 54 desaturation 54 μ opioid receptor 54 bradykinesia 54 GFP fluorescence 54 chromosomal rearrangement 54 incompletely understood 54 cognitive affective 54 emotional reactivity 54 cortical plasticity 54 FSHR 54 microRNA molecules 54 neurophysiologic 54 Extracellular 54 insulin signaling pathway 54 alpha subunit 54 spermatogenesis 54 tau phosphorylation 54 sexually dimorphic 54 mucosal immune 54 coexpression 54 FSH receptor 54 proline rich 54 neuro physiological 54 sensory acuity 54 authors hypothesize 54 adrenoceptor 54 Nernst 54 spatial temporal 54 PDGFR 54 inhibitory 54 cyclic AMP cAMP 54 proteolytic activity 54 electronic excitations 54 spatio temporal 54 neurosensory 54 biochemical imbalances 54 mentation 54 endocytic 54 psychobiological 54 p# MAPK 54 mechanical dyssynchrony 54 cytidine 54 evolutionarily ancient 54 transcriptional activation 54 Kv#.# 54 TGF beta signaling 54 Valsalva maneuver 54 auditory stimulation 54 Phosphorylation 54 protein conformation 54 mu receptors 54 BMP signaling 54 alveolar macrophage 54 β catenin 54 neurone 54 induced neuronal 54 beta subunit 54 Dictyostelium 54 neocortical 54 sensory perceptions 54 mitochondrial biogenesis 54 cellular respiration 54 muscarinic receptor 54 glycogen synthesis 54 hypovolemic 54 amyloid plaque formation 54 depolarizing 54 depolarization 54 Smad3 54 RNA polymerases 54 palmitate 54 agonist induced 54 ATP hydrolysis 54 magnetization reversal 54 blood glucose concentrations 54 deacetylation 54 renal fibrosis 54 Fig. 4a 54 posttranslational modification 54 retinal dystrophy 54 FGF signaling 54 hindlimb 54 MC4R gene 54 synchrony 54 mitogenic 54 leptin signaling 54 noxious stimuli 54 chromosomal instability 54 muscle twitches 54 Orthostatic hypotension 54 apoptosis pathway 54 metaplasia 54 stochastic resonance 54 apoE4 54 brain lesions 54 alkalosis 54 neural impulses 54 ipRGCs 54 subcellular structures 54 thymocyte 54 neurophysiological 54 pleiotropic 54 diffusible 54 electroretinography 54 excitability 54 peripheral tissues 54 cerebellar 54 CYP#C# gene 54 neural pathway 54 intercellular communication 54 Cx# [001] 54 N myc 54 tissue homeostasis 54 neuroinflammation 54 HbF 54 posteromedial cortex 54 mechanotransduction 54 amygdala neurons 54 helicases 53 electrophysiological 53 GABA neurotransmitter 53 phasic 53 GABA gamma aminobutyric acid 53 NADPH 53 humoral immunity 53 prefrontal regions 53 gluconeogenesis 53 telomere maintenance 53 rate variability HRV 53 FGFR4 53 hypoxia induced 53 cerebral arteries 53 gut microflora 53 HIF 1a 53 Rab5 53 SH2 B 53 PTH secretion 53 skin conductance responses 53 neuronal membranes 53 testicular function 53 epigenetic silencing 53 anaerobic metabolism 53 dysregulation 53 tactile stimulation 53 transcription elongation 53 electrically stimulated 53 leptin concentrations 53 drug metabolizing enzymes 53 transduction 53 circadian misalignment 53 painful stimuli 53 diurnal variation 53 CYP#E# 53 proteoglycan 53 evolvability 53 punctate 53 renal tubular 53 LXRs 53 Amino acid 53 glial tumors 53 bacterial virulence 53 MMP# 53 resonance frequency 53 cyclicity 53 fluorescence intensity 53 β1 53 brown adipose tissue 53 somatostatin 53 siRNA knockdown 53 PIP2 53 eddy currents 53 nNOS 53 epithelial barrier 53 stereochemical 53 cortico 53 afterload 53 evolutionary conserved 53 histone modifications 53 arterial oxygen saturation 53 brain limbic 53 insulin signaling pathways 53 auditory neurons 53 hyper excitability 53 prothrombotic 53 AT1 receptor 53 ovulatory 53 semicircular canals 53 Dpp 53 striatal 53 temporoparietal junction 53 Fig. 4B 53 Genetic mutations 53 coagulopathy 53 nerve degeneration 53 nonvascular 53 hormone aldosterone 53 vasoactive 53 adrenal function 53 PON1 53 asystole 53 lactate dehydrogenase 53 Sirt3 53 researchers hypothesize 53 dorsolateral 53 vagus nerves 53 Neuropeptide Y 53 S6K 53 serotonin transporters 53 secretory pathway 53 Fig. 3a 53 hyperintensity 53 Ca2 + 53 netrin 1 53 globus pallidus 53 Fig. 2D 53 rostral anterior cingulate cortex 53 hypoxia inducible transcription 53 brainwave patterns 53 ERalpha 53 eotaxin 53 proton pump 53 myelinated 53 thermodynamic stability 53 binding affinities 53 postural sway 53 vomeronasal 53 MMP9 53 epididymal 53 bax 53 reticular 53 neuropeptide Y 53 eicosanoid 53 dopamine transporter 53 phospholipid membranes 53 paraventricular nucleus 53 HepG2 cells 53 neovascularization 53 TGF b 53 medial frontal cortex 53 tissue oxygenation 53 PC# cells 53 anterior cortex 53 miR #a [001] 53 hypocretin 53 myocyte 53 proinflammatory 53 auditory sensory 53 morphogenesis 53 Wnts 53 neurohormones 53 PGC 1α 53 mirror neuron 53 dopamine neurotransmission 53 C EBP alpha 53 mTOR signaling pathway 53 ciliated 53 constitutively active 53 fatty infiltration 53 microsaccades 53 myopathies 53 ligand induced 53 nerve conduction velocity 53 BDNF gene 53 Fig. 1a 53 MECP2 gene 53 urocortin 53 IRS1 53 chemosensitivity 53 parahippocampal gyrus 53 nonlinearities 53 Lkb1 53 hyperactivated 53 Skeletal muscles 53 dopaminergic 53 chemosensory 53 ENaC 53 chromosome translocation 53 GAPDH 53 thermally induced 53 interneuron 53 GABAB receptors 53 neurofibromin 53 anatomic structures 53 hormones leptin 53 DNA hypomethylation 53 basal ganglia 53 TOP2A gene 53 Fig. 1b 53 underlying pathophysiology 53 kinase domain 53 MAP kinase 53 γ secretase 53 4E BP1 53 oxyhemoglobin 53 proximal tubule 53 biochemical processes 53 middle frontal gyrus 53 eIF2 53 serotonergic neurons 53 vertebrate embryos 53 5 HT1A 53 selenoproteins 53 somatic mutations 53 variabilities 53 inflammatory cytokine 53 epigenetic changes 53 GABAergic neurons 53 lymphatic vasculature 53 transduce 53 osteogenesis 53 sperm morphology 53 electroencephalograms 53 c Myb 53 uncoupling protein 53 NKT cell 53 Stress hormones 53 cortices 53 hyperinsulinemia 53 meiotic recombination 53 SLC#A# [002] 53 differentially regulated 53 cypin 53 membrane permeability 53 mechanistically 53 vermis 53 beta globin gene 53 stathmin 53 S#K# 53 rod photoreceptors 53 suprachiasmatic nucleus SCN 53 postsynaptic 53 Notch1 53 receptor activation 53 cerebellar vermis 53 FKBP# 53 cell motility 53 sortilin 53 Cdc# 53 blood oxygenation 53 mitochondrial proteins 53 microglial activation 53 dyskinesias 53 cell adhesion molecule 53 calpain 53 conceptus 53 ErbB4 53 alveolar epithelial cells 53 Dysregulation 53 isoenzymes 53 reticular formation 53 muscle contractility 53 podocyte 53 HIF 1α 53 neuro muscular 53 de novo mutations 53 glomerular 53 motile 53 gastric mucosal 53 evolutionarily conserved 53 vWF 53 auditory cortices 53 renal tubules 53 sinusoidal 53 myocardial contractility 53 magnesium ion 53 FGF ligands 53 ATP synthase 53 HCV replication 53 fig. S4 53 MCH neurons 53 chemotactic 53 Notch pathway 53 frontal parietal 53 inhibitory interneurons 53 mirror neuron system 53 hyperresponsiveness 53 perturbation theory 53 CD# expression [001] 53 Fig. 1c 53 harmonic resonance 53 KaiC 53 intestinal motility 52 intervertebral disk 52 fusiform gyrus 52 vessel dilation 52 granule cells 52 dorsolateral prefrontal cortex 52 airway hyperresponsiveness 52 noradrenaline 52 QT intervals 52 condensin 52 #beta HSD1 52 dermal papilla 52 quantum oscillations 52 posterior pituitary 52 NMDAR 52 urinary excretion 52 inhaled anesthetics 52 airway reactivity 52 neural degeneration 52 interstitial fluid 52 paxillin 52 lateralisation 52 inhibitory neurotransmitter 52 declarative memory 52 intronic 52 Fig. 2b 52 protein phosphorylation 52 Rev erb 52 acetylcholine neurotransmitter 52 operant 52 zebrafish larvae 52 oxidases 52 budding yeast 52 reticulum 52 hyperstimulation 52 #BP# 52 motoric 52 biophysical properties 52 fruitflies 52 ubiquitin proteasome 52 morphometry 52 hormones ghrelin 52 mice lacking 52 parietal cortices 52 tic severity 52 nodulation 52 synaptic proteins 52 pulsatility 52 overactivity 52 periaqueductal gray 52 tumor suppressor protein 52 TRAIL induced apoptosis 52 hyperinsulinism 52 Pax6 52 quasiparticle 52 entrain 52 cyclooxygenase 2 52 prolactin levels 52 heritable variation 52 neuritic plaques 52 ischemia induced 52 Gaussian distribution 52 sexual dimorphism 52 caveolae 52 secrete hormones 52 Fig. 2a 52 notochord 52 oscillator frequency 52 genomic imprinting 52 muscle hypertrophy 52 masculinization 52 cerebral ischemia 52 neuronal degeneration 52 induced apoptosis 52 intestinal permeability 52 DUX4 gene 52 JAK STAT 52 Notch signaling pathway 52 hematopoiesis 52 beta globin 52 synaptic vesicles 52 monoamines 52 TXNIP 52 SIRT1 gene 52 cytochrome b 52 Inappropriate activation 52 masticatory 52 sensory disturbances 52 synapse formation 52 Genetic variation 52 stochasticity 52 mammalian brains 52 hippocampal formation 52 nucleolar dominance 52 prefrontal lobe 52 protein Hsp# 52 epigenetic modification 52 IKKß 52 phagocyte 52 cytokine signaling 52 cofilin 52 acetylcholine receptor