Cellular senescence in honey bee brain is largely independent of chronological age - Wikidata - awgldk - TriplyDB

Cellular senescence in honey bee brain is largely independent of chronological age

Cellular senescence in honey bee brain is largely independent of chronological age

http://www.wikidata.org/entity/Q36692294

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Differential protein expression in honeybee (Apis mellifera L.) larvae: underlying caste differentiation.The curious case of aging plasticity in honey bees.Vitellogenin family gene expression does not increase Drosophila lifespan or fecundity Immunogold localization of vitellogenin in the ovaries, hypopharyngeal glands and head fat bodies of honeybee workers, Apis mellifera.Aging and its modulation in a long-lived worker caste of the honey bee Flight restriction prevents associative learning deficits but not changes in brain protein-adduct formation during honeybee ageing.The habitat disruption induces immune-suppression and oxidative stress in honey bees.Comparative proteomics reveal characteristics of life-history transitions in a social insect Effects of Flight on Gene Expression and Aging in the Honey Bee Brain and Flight Muscle The use of honeybees reared in a thermostatic chamber for aging studies.Cognitive aging is linked to social role in honey bees (Apis mellifera).Ageing in a eusocial insect: molecular and physiological characteristics of life span plasticity in the honey bee.Impaired tactile learning is related to social role in honeybees Social context, stress, and plasticity of aging.Insights into biomedicine from animal adaptations.Age, worksite location, neuromodulators, and task performance in the ant Pheidole dentata.Learning at old age: a study on winter bees.Transcriptional response to foraging experience in the honey bee mushroom bodies.Early life stress affects mortality rate more than social behavior, gene expression or oxidative damage in honey bee workers.Hemocyte-mediated phagocytosis differs between honey bee (Apis mellifera) worker castes Changes in mitochondrial energy utilization in young and old worker honeybees (Apis mellifera).Aging without functional senescence in honey bee workers."If it looks like a duck…" - why humans need to focus on different approaches than insects if we are to become efficiently and effectively ultrasocial.Use it and lose it: lipofuscin accumulation in the midbrain of a coral reef fish.Lifespan behavioural and neural resilience in a social insect.

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P2860

Cellular senescence in honey bee brain is largely independent of chronological age

http://www.wikidata.org/entity/Q36692294

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2006 nî lūn-bûn

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Cellular senescence in honey bee brain is largely independent of chronological age

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Cellular senescence in honey bee brain is largely independent of chronological age

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Cellular senescence in honey bee brain is largely independent of chronological age

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Cellular senescence in honey bee brain is largely independent of chronological age

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Cellular senescence in honey bee brain is largely independent of chronological age

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Cellular senescence in honey bee brain is largely independent of chronological age

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J.EXGER.2006.08.004

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Experimental Gerontology

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Cellular senescence in honey bee brain is largely independent of chronological age

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P2093

Gro V Amdam

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Siri-Christine Seehuus

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Trygve Krekling

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P2860

Reproductive protein protects functionally sterile honey bee workers from oxidative stress

Oxidative stress, caloric restriction, and aging

The changes of gene expression in honeybee (Apis mellifera) brains associated with ages.

Tubulin nitration in human gliomas.

Role of oxidative carbonylation in protein quality control and senescence.

Role of oxidative stress and protein oxidation in the aging process.

Inactivation of Drosophila DJ-1 leads to impairments of oxidative stress response and phosphatidylinositol 3-kinase/Akt signaling.

Slow aging during insect reproductive diapause: why butterflies, grasshoppers and flies are like worms.

Gene expression profiles in the brain predict behavior in individual honey bees.

Energy metabolism, enzymatic flux capacities, and metabolic flux rates in flying honeybees.

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1117-1125

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10.1016/J.EXGER.2006.08.004

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