Difference between revisions of "Ebanks 2022 Abstract Bioblast"
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{{Abstract | {{Abstract | ||
Β | |title=P09. [[File:Ebanks.jpg|left|100px|Brad Ebanks]]<u>Ebanks Brad</u>, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi N, Chakrabarti L (2022) Exercise alters mitochondrial physiology and has age-specific impacts on the fitness and lifespan of ''D. melanogaster''. '''Bioblast 2022: BEC Inaugural Conference.''' In: https://doi.org/10.26124/bec:2022-0001 | ||
|title=<u>Ebanks Brad</u> (2022) Exercise alters mitochondrial physiology and has age-specific impacts on the fitness and lifespan of ''D. melanogaster''. Bioblast 2022: BEC Inaugural Conference. | |||
|info=[https://wiki.oroboros.at/index.php/Bioblast_2022#Submitted_abstracts Bioblast 2022: BEC Inaugural Conference] | |info=[https://wiki.oroboros.at/index.php/Bioblast_2022#Submitted_abstracts Bioblast 2022: BEC Inaugural Conference] | ||
|authors=Ebanks Brad | |authors=Ebanks Brad, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi Nicoleta, Chakrabarti Lisa | ||
|year=2022 | |year=2022 | ||
|event=[[Bioblast 2022]] | |event=[[Bioblast 2022]] | ||
|abstract=Biological ageing is one of the biggest risk factors for a range of diseases, including cancers, neurodegenerative disease, and heart disease. Mitochondrial dysfunction is associated with both ageing and diseases of ageing. As exercise is increasingly being viewed as a potential anti-ageing therapy, we sought to assess the impact of exercise on the fitness and lifespan of ''D. melanogaster''[1]. In addition, we assessed the exercise-induced changes to mitochondrial physiology through high-resolution respirometry and label-free mass spectrometry. Exercise in late life extends the lifespan of male and female ''D. melanogaster'' compared with those exercised throughout their entire lifetime. Exercise also increases Complex-II-linked respiration and upregulates the expression of proteins from the electron transfer Complexes I, III, IV. | |abstract=Biological ageing is one of the biggest risk factors for a range of diseases, including cancers, neurodegenerative disease, and heart disease. Mitochondrial dysfunction is associated with both ageing and diseases of ageing. As exercise is increasingly being viewed as a potential anti-ageing therapy, we sought to assess the impact of exercise on the fitness and lifespan of ''D. melanogaster''[1]. In addition, we assessed the exercise-induced changes to mitochondrial physiology through high-resolution respirometry and label-free mass spectrometry. Exercise in late life extends the lifespan of male and female ''D. melanogaster'' compared with those exercised throughout their entire lifetime. Exercise also increases Complex-II-linked respiration and upregulates the expression of proteins from the electron transfer Complexes I, III, IV. | ||
<small> | |||
# Ebanks B, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi N, Chakrabarti L (2021) Exercising ''D. melanogaster'' modulates the mitochondrial proteome and physiology. The effect on lifespan depends upon age and sex. https://doi.org/10.3390/ijms222111606 | |||
</small> | |||
|keywords=Drosophila; ageing; exercise; lifespan; mitochondria; proteomics; respirometry | |keywords=Drosophila; ageing; exercise; lifespan; mitochondria; proteomics; respirometry | ||
}} | }} | ||
== Affiliation == | |||
:::: University of Nottingham, UK - [email protected] | |||
== List of abbreviations, terms and definitions - MitoPedia == | == List of abbreviations, terms and definitions - MitoPedia == | ||
{{Template:List of abbreviations, terms and definitions - MitoPedia}} | {{Template:List of abbreviations, terms and definitions - MitoPedia}} | ||
{{Labeling | {{Labeling | ||
|area=Exercise physiology;nutrition;life style | |area=Exercise physiology;nutrition;life style | ||
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|organism=Drosophila | |organism=Drosophila | ||
|instruments=Oxygraph-2k | |instruments=Oxygraph-2k | ||
|event=Poster | |||
|articletype=Abstract | |articletype=Abstract | ||
}} | }} |
Latest revision as of 08:49, 28 July 2022
P09. Ebanks Brad, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi N, Chakrabarti L (2022) Exercise alters mitochondrial physiology and has age-specific impacts on the fitness and lifespan of D. melanogaster. Bioblast 2022: BEC Inaugural Conference. In: https://doi.org/10.26124/bec:2022-0001 |
Link: Bioblast 2022: BEC Inaugural Conference
Ebanks Brad, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi Nicoleta, Chakrabarti Lisa (2022)
Event: Bioblast 2022
Biological ageing is one of the biggest risk factors for a range of diseases, including cancers, neurodegenerative disease, and heart disease. Mitochondrial dysfunction is associated with both ageing and diseases of ageing. As exercise is increasingly being viewed as a potential anti-ageing therapy, we sought to assess the impact of exercise on the fitness and lifespan of D. melanogaster[1]. In addition, we assessed the exercise-induced changes to mitochondrial physiology through high-resolution respirometry and label-free mass spectrometry. Exercise in late life extends the lifespan of male and female D. melanogaster compared with those exercised throughout their entire lifetime. Exercise also increases Complex-II-linked respiration and upregulates the expression of proteins from the electron transfer Complexes I, III, IV.
- Ebanks B, Wang Y, Katyal G, Sargent C, Ingram TL, Bowman A, Moisoi N, Chakrabarti L (2021) Exercising D. melanogaster modulates the mitochondrial proteome and physiology. The effect on lifespan depends upon age and sex. https://doi.org/10.3390/ijms222111606
β’ Keywords: Drosophila; ageing; exercise; lifespan; mitochondria; proteomics; respirometry
Affiliation
- University of Nottingham, UK - [email protected]
List of abbreviations, terms and definitions - MitoPedia
Labels: MiParea: Exercise physiology;nutrition;life style
Pathology: Aging;senescence
Organism: Drosophila
HRR: Oxygraph-2k
Event: Poster