about
Cytoskeletal regulation dominates temperature-sensitive proteomic changes of hibernation in forebrain of 13-lined ground squirrelsAntioxidant Defenses in the Brains of Bats during Hibernation1H-NMR metabolomic biomarkers of poor outcome after hemorrhagic shock are absent in hibernatorsDecreases in body temperature and body mass constitute pre-hibernation remodelling in the Syrian golden hamster, a facultative mammalian hibernatorComparison of brain transcriptome of the greater horseshoe bats (Rhinolophus ferrumequinum) in active and torpid episodes3-Nitropropionic acid-induced ischemia tolerance in the rat brain is mediated by reduced metabolic activity and cerebral blood flowHomocysteine homeostasis and betaine-homocysteine S-methyltransferase expression in the brain of hibernating bats.Enhanced stability and polyadenylation of select mRNAs support rapid thermogenesis in the brown fat of a hibernator.The involvement of mRNA processing factors TIA-1, TIAR, and PABP-1 during mammalian hibernation.Regulation of Torpor in the Gray Mouse Lemur: Transcriptional and Translational Controls and Role of AMPK SignalingDifferential Expression of Hepatic Genes of the Greater Horseshoe Bat (Rhinolophus ferrumequinum) between the Summer Active and Winter Torpid StatesIschemic preconditioning alters the epigenetic profile of the brain from ischemic intolerance to ischemic tolerance.Ethical considerations in hibernation research.Genetics and genomics of ischemic tolerance: focus on cardiac and cerebral ischemic preconditioning.Mechanisms of oxidative stress resistance in the brain: Lessons learned from hypoxia tolerant extremophilic vertebrates.Proteomics approaches shed new light on hibernation physiology.Seasonal and post-trauma remodeling in cone-dominant ground squirrel retina.Integrated transcriptomic and metabolomic analysis reveals adaptive changes of hibernating retinas.Hypometabolism as the ultimate defence in stress response: how the comparative approach helps understanding of medically relevant questions.Thermoregulation as a disease tolerance defense strategy.Enhanced oxidative capacity of ground squirrel brain mitochondria during hibernation.Syrian hamster neuroplasticity mechanisms fail as temperature declines to 15 °C, but histaminergic neuromodulation persists.Neuroprotection by Chlorpromazine and Promethazine in Severe Transient and Permanent Ischemic Stroke.Overstimulation of glutamate signals leads to hippocampal transcriptional plasticity in hamsters.Condition-specific transcriptional regulation of neuronal ion channel genes in brain ischemia.Akt Protein Kinase, miR-200/miR-182 Expression and Epithelial-Mesenchymal Transition Proteins in Hibernating Ground Squirrels.Subtropical mouse-tailed bats use geothermally heated caves for winter hibernation.iPSCs from a Hibernator Provide a Platform for Studying Cold Adaptation and Its Potential Medical Applications.Gene expression profiling during hibernation in the European hamster
P2860
Q27309204-E23D880F-F553-4764-BB4A-E32A9F9EEF28Q27316603-638B6D26-E823-455A-945B-1350DF8799C5Q27347253-C656A39E-8801-4DAE-BA8D-1BF7D00F75D3Q28603458-7772624F-0295-4643-9822-05DCC2CFAAD9Q28655502-ADF21729-7C40-4621-9AE7-7BF7BE008993Q34153446-678E0B31-5025-4398-9BAA-B51C768E5975Q35078622-BDDE13BF-1D70-4508-9980-4A84C86514ABQ35248782-377E1F65-1B20-4CE8-8950-E876FAB1F8BAQ35319446-71B33D40-3EE6-4A1A-938A-37AD6ED47BCFQ35669187-C02C0285-AEE6-4527-9347-869AF68890B2Q35876593-72C4FFF3-C5F7-4758-B480-850210F2C071Q37249150-DE6D28C9-ECCD-4AE7-A0D0-B0880CE1DA0CQ37490126-95EED3BE-E763-4E50-BB6C-16EF4319FE5EQ38061499-07B6142D-A03D-40CC-97B9-46F944DF8BCCQ38405132-BC14F8FC-92E3-4492-B57A-E195C2269D80Q38481628-695DB902-7769-4618-88A2-0272D583F1A2Q38710907-8258D396-D7BB-4141-81D2-5428D881AD1AQ38764743-2EEC7523-8252-49A6-B2FA-0CE3457B97EEQ38882599-27AD0BAF-FB93-4488-9640-0CED3F8FB75DQ38999142-01A19B01-A3CB-494B-BC68-051F237476C5Q39026331-EC041E65-7C76-4EAD-90A7-32E95915A9DBQ46215126-77582E30-D5A3-45F4-AD8D-8C6D91679DFBQ46453538-B35269E8-4E45-48E0-B03B-C4203AC0670BQ46931246-F5676809-7BCE-4589-ACB0-F406AF635002Q47852935-895D0E23-FA4D-430C-96A3-B60B2446D00AQ49395543-25B7FB1F-1AC9-4EC1-91F3-E67811472271Q52536472-3C03F7AA-B721-49A2-925C-7A6A228EFF01Q52632837-E1F3391B-CD79-4726-B383-F522E3553904Q58769140-D69FF8FC-24DE-4F09-B7CF-1AD9CF87AF34
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Neuroprotection: lessons from hibernators.
@ast
Neuroprotection: lessons from hibernators.
@en
type
label
Neuroprotection: lessons from hibernators.
@ast
Neuroprotection: lessons from hibernators.
@en
prefLabel
Neuroprotection: lessons from hibernators.
@ast
Neuroprotection: lessons from hibernators.
@en
P2093
P2860
P1476
Neuroprotection: lessons from hibernators.
@en
P2093
Kelly L Drew
Kunjan R Dave
Miguel A Perez-Pinzon
Sherri L Christian
P2860
P356
10.1016/J.CBPB.2012.01.008
P577
2012-02-03T00:00:00Z