| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Kenneth B. Storey | Q6389837 |
| P2093 | author name string | Kyle K Biggar | |
| P2860 | cites work | miRNA in the regulation of skeletal muscle adaptation to acute endurance exercise in C57Bl/6J male mice | Q21143777 |
| Metabolic rate depression in animals: transcriptional and translational controls | Q21152439 | ||
| Cooperative and individualistic functions of the microRNAs in the miR-23a~27a~24-2 cluster and its implication in human diseases | Q21245705 | ||
| Phosphorylation of the human microRNA-generating complex mediates MAPK/Erk signaling | Q24321740 | ||
| MicroRNAs control translation initiation by inhibiting eukaryotic initiation factor 4E/cap and poly(A) tail function | Q24538996 | ||
| miR-17 and miR-20a temper an E2F1-induced G1 checkpoint to regulate cell cycle progression | Q24648145 | ||
| The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation | Q24650204 | ||
| AKT/PKB signaling: navigating downstream | Q24657857 | ||
| Transcripts targeted by the microRNA-16 family cooperatively regulate cell cycle progression | Q24681466 | ||
| Mammalian microRNAs predominantly act to decrease target mRNA levels | Q27860535 | ||
| Conserved seed pairing, often flanked by adenosines, indicates that thousands of human genes are microRNA targets | Q27860792 | ||
| Widespread changes in protein synthesis induced by microRNAs | Q27860886 | ||
| MicroRNAs: genomics, biogenesis, mechanism, and function | Q27861070 | ||
| Signalling pathways that mediate skeletal muscle hypertrophy and atrophy | Q28206750 | ||
| Two new miR-16 targets: caprin-1 and HMGA1, proteins implicated in cell proliferation | Q28236711 | ||
| The transcriptional targets of p53 in apoptosis control | Q28248026 | ||
| Programmed cell death 4 (PDCD4) is an important functional target of the microRNA miR-21 in breast cancer cells | Q28256740 | ||
| MicroRNA-21 is an antiapoptotic factor in human glioblastoma cells | Q28262214 | ||
| Transcriptional control of muscle development by myocyte enhancer factor-2 (MEF2) proteins | Q28294155 | ||
| Integral role of Noxa in p53-mediated apoptotic response | Q28510421 | ||
| Cold stress-induced protein Rbm3 binds 60S ribosomal subunits, alters microRNA levels, and enhances global protein synthesis | Q28567833 | ||
| Transactivation of miR-34a by p53 broadly influences gene expression and promotes apoptosis | Q29547575 | ||
| Large P body-like RNPs form in C. elegans oocytes in response to arrested ovulation, heat shock, osmotic stress, and anoxia and are regulated by the major sperm protein pathway | Q30482528 | ||
| Prediction of microRNA targets | Q31113935 | ||
| Perspectives in cell cycle regulation: lessons from an anoxic vertebrate | Q33635376 | ||
| Metabolic depression in animals: physiological perspectives and biochemical generalizations | Q33681628 | ||
| Regulation of PI3-kinase/Akt signaling by muscle-enriched microRNA-486 | Q33732748 | ||
| Mitochondria, oxygen free radicals, and apoptosis | Q34386750 | ||
| MyoD and the transcriptional control of myogenesis | Q34442774 | ||
| miR-21: a small multi-faceted RNA. | Q34931601 | ||
| Sustained activation of ERK1/2 by NGF induces microRNA-221 and 222 in PC12 cells | Q34980725 | ||
| 4E-binding protein phosphorylation and eukaryotic initiation factor-4E release are required for airway smooth muscle hypertrophy | Q35052365 | ||
| Mitogen-activated protein kinases: new signaling pathways functioning in cellular responses to environmental stress | Q35072928 | ||
| p53 downstream targets and chemosensitivity. | Q35116655 | ||
| Coupling endoplasmic reticulum stress to the cell death program | Q35649891 | ||
| Muscle structural modifications in hypoxia | Q35658064 | ||
| MyoD inhibits Fstl1 and Utrn expression by inducing transcription of miR-206 | Q36118939 | ||
| Gene regulation by microRNAs | Q36406938 | ||
| Functional, structural and molecular plasticity of mammalian skeletal muscle in response to exercise stimuli | Q36491442 | ||
| Signaling pathways in skeletal muscle remodeling | Q36498310 | ||
| MicroRNAs: a new class of regulatory genes affecting metabolism | Q36524940 | ||
| Hypoxia-inducible factor-1 and p53: friends, acquaintances, or strangers? | Q36584922 | ||
| Tribute to P. L. Lutz: putting life on 'pause'--molecular regulation of hypometabolism | Q36815509 | ||
| Muscle intermediate filaments and their links to membranes and membranous organelles | Q36825339 | ||
| MicroRNAs flex their muscles | Q37104195 | ||
| MicroRNA and cancer--focus on apoptosis | Q37295059 | ||
| The roles of microRNA in cancer and apoptosis | Q37338421 | ||
| Mechanisms of microRNA-mediated gene regulation | Q37657188 | ||
| An overview of stress response and hypometabolic strategies in Caenorhabditis elegans: conserved and contrasting signals with the mammalian system | Q37678202 | ||
| Mapping the face in the somatosensory brainstem | Q37697491 | ||
| Metabolic rate depression and biochemical adaptation in anaerobiosis, hibernation and estivation | Q37947290 | ||
| MicroRNA-21 promotes cell transformation by targeting the programmed cell death 4 gene | Q38292240 | ||
| Expression of myocyte enhancer factor-2 and downstream genes in ground squirrel skeletal muscle during hibernation. | Q38342627 | ||
| Aberrant overexpression of microRNAs activate AKT signaling via down-regulation of tumor suppressors in natural killer-cell lymphoma/leukemia | Q38351879 | ||
| MicroRNA 125a and its regulation of the p53 tumor suppressor gene | Q39789172 | ||
| MicroRNA-125b is a novel negative regulator of p53. | Q39871732 | ||
| Downregulation of CCND1 and CDK6 by miR-34a induces cell cycle arrest | Q39992760 | ||
| Differential expression of microRNA species in organs of hibernating ground squirrels: a role in translational suppression during torpor | Q43496271 | ||
| The translation state of differentially expressed mRNAs in the hibernating 13-lined ground squirrel (Spermophilus tridecemlineatus). | Q44020689 | ||
| Reversible depression of transcription during hibernation | Q44067223 | ||
| Differential expression of Akt, PPARgamma, and PGC-1 during hibernation in bats | Q44625560 | ||
| Resistance to disuse atrophy in a turtle hindlimb muscle | Q44767255 | ||
| Determination in vivo of newly synthesized gene expression in hamsters during phases of the hibernation cycle | Q45148870 | ||
| C. elegans DAF-18/PTEN mediates nutrient-dependent arrest of cell cycle and growth in the germline. | Q46025317 | ||
| Uridine uptake and RNA synthesis in the brain of torpid and awakened ground squirrels | Q46120629 | ||
| Regulation of Akt during hibernation in Richardson's ground squirrels | Q46913952 | ||
| Differential regulation of microRNAs by p53 revealed by massively parallel sequencing: miR-34a is a p53 target that induces apoptosis and G1-arrest | Q48078984 | ||
| A Profile of the Metabolic Responses to Anoxia in Marine Invertebrates | Q53058590 | ||
| MicroRNA regulation below zero: differential expression of miRNA-21 and miRNA-16 during freezing in wood frogs. | Q53099395 | ||
| Overcoming muscle atrophy in a hibernating mammal despite prolonged disuse in dormancy: proteomic and molecular assessment. | Q53552715 | ||
| Apaf-1 is a transcriptional target for E2F and p53 | Q57274134 | ||
| Ribosomes Rule | Q58067162 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 167-175 | |
| P577 | publication date | 2010-12-21 | |
| P1433 | published in | Journal of Molecular Cell Biology | Q2456339 |
| P1476 | title | The emerging roles of microRNAs in the molecular responses of metabolic rate depression | |
| P478 | volume | 3 |
| Q37371324 | Biochemical adaptations of mammalian hibernation: exploring squirrels as a perspective model for naturally induced reversible insulin resistance. |
| Q39430271 | Circadian MicroRNAs in Cardioprotection |
| Q34459660 | Dg-Dys-Syn1 signaling in Drosophila regulates the microRNA profile |
| Q35703327 | Differential Measurements of Oxidatively Modified Proteins in Colorectal Adenopolyps |
| Q41358755 | Differential expression of mature microRNAs involved in muscle maintenance of hibernating little brown bats, Myotis lucifugus: a model of muscle atrophy resistance |
| Q46146502 | Distinct microRNA expression signatures in human right atrial and ventricular myocardium |
| Q35921375 | Down but Not Out: The Role of MicroRNAs in Hibernating Bats |
| Q39656924 | Dystrophin Orchestrates the Epigenetic Profile of Muscle Cells Via miRNAs |
| Q64226399 | Estivation-responsive microRNAs in a hypometabolic terrestrial snail |
| Q50512954 | Evidence for cell cycle suppression and microRNA regulation of cyclin D1 during anoxia exposure in turtles. |
| Q35543835 | Expression profiling and structural characterization of microRNAs in adipose tissues of hibernating ground squirrels |
| Q47687242 | Functional impact of microRNA regulation in models of extreme stress adaptation |
| Q47866248 | HIF-1α regulation in mammalian hibernators: role of non-coding RNA in HIF-1α control during torpor in ground squirrels and bats |
| Q35021611 | High-throughput sequencing reveals differential expression of miRNAs in intestine from sea cucumber during aestivation |
| Q35237075 | Hypoxia-induced gene expression results from selective mRNA partitioning to the endoplasmic reticulum. |
| Q52627370 | Identification of cold stress responsive microRNAs in two winter turnip rape (Brassica rapa L.) by high throughput sequencing. |
| Q56602775 | Insect cold hardiness: metabolic, gene, and protein adaptation1This review is part of a virtual symposium on recent advances in understanding a variety of complex regulatory processes in insect physiology and endocrinology, including development, met |
| Q88654039 | Long-term window of ischemic tolerance: An evolutionarily conserved form of metabolic plasticity regulated by epigenetic modifications? |
| Q38411603 | Low-temperature microRNA expression in the painted turtle, Chrysemys picta during freezing stress |
| Q92478739 | MiR-200-3p Is Potentially Involved in Cell Cycle Arrest by Regulating Cyclin A during Aestivation in Apostichopus japonicus |
| Q37034049 | MicroRNA expression and its association with DNA repair in preimplantation embryos |
| Q41358879 | MicroRNA regulation in extreme environments: differential expression of microRNAs in the intertidal snail Littorina littorea during extended periods of freezing and anoxia |
| Q46624794 | MicroRNA regulation in heart and skeletal muscle over the freeze-thaw cycle in the freeze tolerant wood frog |
| Q35105784 | MicroRNA-133 inhibits behavioral aggregation by controlling dopamine synthesis in locusts |
| Q34100916 | MicroRNA-mediated gene regulation plays a minor role in the transcriptomic plasticity of cold-acclimated zebrafish brain tissue |
| Q88432052 | Micromanaging freeze tolerance: the biogenesis and regulation of neuroprotective microRNAs in frozen brains |
| Q36079812 | Molecular Mechanism for Stress-Induced Depression Assessed by Sequencing miRNA and mRNA in Medial Prefrontal Cortex |
| Q34360580 | Molecular biology of freezing tolerance |
| Q26770754 | Neuroinflammation and Depression: Microglia Activation, Extracellular Microvesicles and microRNA Dysregulation |
| Q26864504 | New Approaches to Comparative and Animal Stress Biology Research in the Post-genomic Era: A Contextual Overview |
| Q37700477 | Oxidatively modified proteins in the serous subtype of ovarian carcinoma |
| Q37271181 | RILES, a novel method for temporal analysis of the in vivo regulation of miRNA expression. |
| Q42513312 | Regulation of Smad mediated microRNA transcriptional response in ground squirrels during hibernation |
| Q38125147 | Regulation of cellular gas exchange, oxygen sensing, and metabolic control |
| Q33827719 | Sildenafil increases muscle protein synthesis and reduces muscle fatigue. |
| Q38627793 | Small Noncoding RNA Expression During Extreme Anoxia Tolerance of Annual Killifish (Austrofundulus limnaeus) Embryos. |
| Q38748861 | Stress-responsive microRNAs are involved in re-programming of metabolic functions in hibernators |
| Q42378029 | The Gray Mouse Lemur: A Model for Studies of Primate Metabolic Rate Depression. Preface |
| Q28604070 | The hibernating South American marsupial, Dromiciops gliroides, displays torpor-sensitive microRNA expression patterns |
| Q35319446 | The involvement of mRNA processing factors TIA-1, TIAR, and PABP-1 during mammalian hibernation |
| Q57485229 | The potential contribution of miRNA-200-3p to the fatty acid metabolism by regulating during aestivation in sea cucumber |
| Q37955675 | The regulation of food intake in mammalian hibernators: a review |
| Q47140371 | The role of MEF2 transcription factors in dehydration and anoxia survival in Rana sylvatica skeletal muscle |
| Q22065285 | The western painted turtle genome, a model for the evolution of extreme physiological adaptations in a slowly evolving lineage. |
| Q35319555 | To be or not to be: the regulation of mRNA fate as a survival strategy during mammalian hibernation |
| Q48038377 | Torpor-responsive expression of novel microRNA regulating metabolism and other cellular pathways in the thirteen-lined ground squirrel, Ictidomys tridecemlineatus |
| Q42786047 | Tumor Protein p63/microRNA Network in Epithelial Cancer Cells |
| Q58779482 | microRNA and mRNA profiles in nucleus accumbens underlying depression versus resilience in response to chronic stress |
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