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Showing below up to 50 results in range #251 to #300.
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- (hist) A Stab at Time/Time in music [897 bytes]
- (hist) Hallmarks of Biological Failure/Complexity, Breaking Bad Tradeoffs, and the Evolution of Biological Failure [892 bytes]
- (hist) Irreversible Processes in Ecological Evolution/Pathogen diversity and negative frequency-dependent selection: consequences for intervention [890 bytes]
- (hist) In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming Cellular reprogramming by transient expression of Yamanaka factors ameliorates age-associated symptoms, prolongs lifespan in progeroid mice, and improves tissue homeostasis in older [889 bytes]
- (hist) Hallmarks of Biological Failure/ShripadTuljapurkar [864 bytes]
- (hist) Hallmarks of Biological Failure/Models in Aging: Two Examples [864 bytes]
- (hist) Aging in Single-celled Organisms: from Bacteria to the Whole Tree of Life/SrividyaIyer-Biswas [859 bytes]
- (hist) Dynamic Multi-System Resilience in Human Aging/Resilience in New Mexico’s Indigenous Communities [856 bytes]
- (hist) Population and the Environment: Analytical Demography and Applied Population Ethics/AmanBorkar [845 bytes]
- (hist) What is Sleep?/AlexHerman [844 bytes]
- (hist) Cognitive Regime Shift I - When the Brain Breaks/The Brain and other Networks [841 bytes]
- (hist) Irreversible Processes in Ecological Evolution/Are changes in species interactions and their ecosystem consequences irreversible? [836 bytes]
- (hist) Cognitive Regime Shift II - When/why/how the Brain Breaks/JohnKrakauer [824 bytes]
- (hist) Aging and Adaptation in Infectious Diseases III/Session II: Diversity, adaptive immunity, and age [814 bytes]
- (hist) Population and the Environment: Analytical Demography and Applied Population Ethics/Foundation of population ethics - population axiology & moral theory [809 bytes]
- (hist) Population and the Environment: Analytical Demography and Applied Population Ethics/Household decisions and their consequences - fundamentals of the demographic transition [802 bytes]
- (hist) Aging in Single-celled Organisms: from Bacteria to the Whole Tree of Life/Stochasticity, immortality, and mortality in E. coli [794 bytes]
- (hist) Species interactions alter evolutionary responses to a novel environment [791 bytes]
- (hist) Cortically coordinated NREM thalamocortical oscillations play an essential, instructive role in visual system plasticity [780 bytes]
- (hist) Abnormal Locus Coeruleus Sleep Activity Alters Sleep Signatures of Memory Consolidation and Impairs Place Cell Stability and Spatial Memory [779 bytes]
- (hist) Aging and Adaptation in Infectious Diseases II/Session V: Aging and the Arrow of Time –Breakout Group Updates and Broader Themes of the SFI/JSMF Initiative [776 bytes]
- (hist) Dynamic Multi-System Resilience in Human Aging/Dynamical systems approach to studying resilience in older adults [763 bytes]
- (hist) Parvalbumin-expressing interneurons coordinate hippocampal network dynamics required for memory consolidation [759 bytes]
- (hist) Cognitive Regime Shift II - When/why/how the Brain Breaks/Round Table Discussion 1: The nature of compensation and cognitive reserves [756 bytes]
- (hist) Hallmarks of Biological Failure/Dynamic Cardiovascular Systems, Evolved Adaptations and Clinical Pathology [756 bytes]
- (hist) Hallmarks of Biological Failure/MichaelHochberg [748 bytes]
- (hist) Cognitive Regime Shift II - When/why/how the Brain Breaks/Robustness of Brain Function [747 bytes]
- (hist) Population and the Environment: Analytical Demography and Applied Population Ethics/SimonLevin [744 bytes]
- (hist) Cognitive Regime Shift II - When/why/how the Brain Breaks/DanielleBassett [743 bytes]
- (hist) Main Page [735 bytes]
- (hist) REM sleep–active MCH neurons are involved in forgetting hippocampus-dependent memories2 [728 bytes]
- (hist) REM sleep–active MCH neurons are involved in forgetting hippocampus-dependent memories [728 bytes]
- (hist) Circadian temperature and melatonin rhythms, sleep, and neurobehavioral function in humans living on a 20-h day [726 bytes]
- (hist) Cognitive Regime Shift I - When the Brain Breaks/Consciousness, Cognition, and the Prefrontal Cortex [726 bytes]
- (hist) Exposure to room light before bedtime suppresses melatonin onset and shortens melatonin duration in humans [718 bytes]
- (hist) Cognitive Regime Shift I - When the Brain Breaks/CaterinaGratton [711 bytes]
- (hist) Modeling the temporal architecture of rat sleep-wake behavior. [705 bytes]
- (hist) Aging and Adaptation in Infectious Diseases III/Session III: Disease History, Aging, and Complex Time [700 bytes]
- (hist) Control of Mammalian Circadian Rhythm by CKI -Regulated Proteasome-Mediated PER2 Degradation [696 bytes]
- (hist) Unstable neurons underlie a stable learned behavior [696 bytes]
- (hist) Ageing and the circadian and homeostatic regulation of human sleep during forced desynchrony of rest, melatonin and temperature rhythms [694 bytes]
- (hist) Cognitive Regime Shift I - When the Brain Breaks/GeorgeMashour [691 bytes]
- (hist) Correlation between genetic regulation of immune responsiveness and host defence against infections and tumours [675 bytes]
- (hist) Addition of a non-photic component to a light-based mathematical model of the human circadian pacemaker [674 bytes]
- (hist) Simulations of light effects on the human circadian pacemaker: Implications for assessment of intrinsic period [672 bytes]
- (hist) Antidepressant suppression of non-REM sleep spindles and REM sleep impairs hippocampus-dependent learning while augmenting striatum-dependent learning [667 bytes]
- (hist) Comparing the Morningness-Eveningness Questionnaire and Munich ChronoType Questionnaire to the dim light melatonin onset [664 bytes]
- (hist) Circadian phenotype impacts the brain's resting-state functional connectivity, attentional performance, and sleepiness [662 bytes]
- (hist) Aging in Single-celled Organisms: from Bacteria to the Whole Tree of Life/Bree Aldridge [649 bytes]
- (hist) Homer1a drives homeostatic scaling-down of excitatory synapses during sleep [647 bytes]