Difference between revisions of "Bioblast 2022"
From Bioblast
| Line 28: | Line 28: | ||
== Program == | == Program == | ||
[[File:Bioblast-icon.jpg|right|250px|Artist: Bernd Weinmayer; Photo: Philipp Gradl]] | [[File:Bioblast-icon.jpg|right|250px|Artist: Bernd Weinmayer; Photo: Philipp Gradl]] | ||
=== Topics and | === Topics and >25 suggested titles === | ||
::::* '''Bioblasts - the taxonomic unit of bioenergetics: mitochondria, chloroplasts, aerobic bacteria''' | ::::* '''Bioblasts - the taxonomic unit of bioenergetics: mitochondria, chloroplasts, aerobic bacteria''' | ||
:::::: Bioblasts and the endosymbiotic theory | |||
:::::: Peter Mitchell's heritage for discoveries on mitochondria, chloroplasts, and aerobic bacteria | :::::: Peter Mitchell's heritage for discoveries on mitochondria, chloroplasts, and aerobic bacteria | ||
::::* '''Evolutionary perspectives of bioenergetics''' | ::::* '''Evolutionary perspectives of bioenergetics''' | ||
:::::: Evolution of bioenergetics under oxygen pressure | :::::: Evolution of bioenergetics under oxygen pressure | ||
:::::: Reversed TCA cycle or mitochondrial succinate formation under anoxia: remember parasites and euryoxic invertebrates | |||
:::::: Oxidative stress in photosynthesis | :::::: Oxidative stress in photosynthesis | ||
:::::: Turning points in bioenergetics - evolutionary perspectives on rotation gear ratios of F<sub>1</sub>F<sub>O</sub>-ATPases | |||
:::::: Turning points in bioenergetics - evolutionary perspectives on rotation | :::::: Symmorphosis and the respiratory cascade - does mitochondrial physiology match? | ||
:::::: Parasites - the mitochondrial outliers | |||
::::* '''Molecular, kinetic, and thermodynamic advances in bioenergetics''' | ::::* '''Molecular, kinetic, and thermodynamic advances in bioenergetics''' | ||
:::::: Why Complex I? Complex II is complex too! | :::::: Why Complex I? Complex II is complex too! | ||
:::::: Signals of oxygen to mitochondria | :::::: Signals of oxygen to mitochondria | ||
:::::: Cellular oxygen kinetics with and beyond Complex IV | :::::: Cellular oxygen kinetics with and beyond Complex IV | ||
:::::: Bioenergetics of alternative oxidases | |||
:::::: The protonmotive force - not just membrane potential | :::::: The protonmotive force - not just membrane potential | ||
::::* '''From bioenergetics to comparative mitochondrial physiology''' | ::::* '''From bioenergetics to comparative mitochondrial physiology''' | ||
:::::: To the heart of the Amazon - adaptations of mitochondrial physiology in the fish champions league | :::::: To the heart of the Amazon - adaptations of mitochondrial physiology in the fish champions league | ||
:::::: Hibernating mitochondria | |||
:::::: Metabolic shutdown of mitochondrial bioenergetics | :::::: Metabolic shutdown of mitochondrial bioenergetics | ||
::::* '''Perspectives of bioenergetics in health and disease''' | ::::* '''Perspectives of bioenergetics in health and disease''' | ||
| Line 49: | Line 54: | ||
:::::: Mitochondrial bioenergetics in cancer - beyond the Warburg effect | :::::: Mitochondrial bioenergetics in cancer - beyond the Warburg effect | ||
:::::: Mitochondrial bioenergetics in ischemia-reperfusion injury | :::::: Mitochondrial bioenergetics in ischemia-reperfusion injury | ||
:::::: Sex and mitochondrial function - a perspective on high-performance sports Β | :::::: Sex and mitochondrial function - a perspective on high-performance sports | ||
:::::: Mitochondrial research at high altitude - a respiratory challenge | |||
:::::: Long COVID - a respiratory mitochondrial topic | |||
::::* '''Methodological advancements in bioenergetics''' | ::::* '''Methodological advancements in bioenergetics''' | ||
:::::: Tissue cytometers - imaging the bioenergetics of life | :::::: Tissue cytometers - imaging the bioenergetics of life | ||
:::::: Redox monitoring and respiration - a new horizon with the NextGen-O2k | :::::: Redox monitoring and respiration - a new horizon with the NextGen-O2k | ||
:::::: Lipidomics of mitochondrial membranes - methods first | |||
:::::: Long-term monitoring of respiration in cultured cells | :::::: Long-term monitoring of respiration in cultured cells | ||
:::::: Statistical analysis of reproducibility in high-resolution respirometry | :::::: Statistical analysis of reproducibility in high-resolution respirometry | ||
=== The concept of Living Communications === | |||
:::: Dear authors: | |||
:::: You may consider your short-term (end of March) and page-limited (4 to 6 pages) primary contribution to Bioblast 2022 as a ''[[Living Communication]]''. Our goal is a continuously evolving BEC article collection on '''Bioenergetics β past and future perspectives'''. Open Access, no page charges, no publication fees, with Open Peer Review. Starting with a 4 to 6 page short contribution to BEC, you may edit your article to keep it 'immortal' in future editions, which may expand, evolve, and thus contribute to a unique collection on the 'Bioblasts'. BEC has subscribed to [[DORA]] to support a change in the world of scientific communication - towards empowerment of [[Gentle Science]] instead of slavery in the empires of the publishing industry with yesteryear's paywall journals. | |||
:::: In the spirit of Gentle Science, to make Bioblast 2022 a milestone in our communication of science, | |||
:::: Your BEC editorial team | |||
=== Time lines === | === Time lines === | ||
Revision as of 23:07, 31 January 2022
|
|
|
|
|
MitoGlobal first |
Bioblast 2022
| Innsbruck, AT, 2022 Jun 28- Jul 1. Bioblast 2022: BEC Inaugural Conference |
Oroboros Instruments (2022-06-28) MitoGlobal
Abstract: Bioblast 2022: Inaugural Conference of Bioenergetics Communications
- Celebrating 30 years Oroboros - a follow-up of Bioblast 2012
In preparation
General information
Submission guidelines: Bioenergetics Communications- - the innovative journal Bioenergetics Communications with Living Communications - Β» Journal website
- Editorial: Gnaiger E (2021) Beyond counting papers β a mission and vision for scientific publication. Bioenerg Commun 2021.5. https://doi.org/10.26124/bec:2021-0005
Venue
- Congress Innsbruck
- Rennweg 3
- 6020 Innsbruck, AT
Program
Topics and >25 suggested titles
- Bioblasts - the taxonomic unit of bioenergetics: mitochondria, chloroplasts, aerobic bacteria
- Bioblasts and the endosymbiotic theory
- Peter Mitchell's heritage for discoveries on mitochondria, chloroplasts, and aerobic bacteria
- Evolutionary perspectives of bioenergetics
- Evolution of bioenergetics under oxygen pressure
- Reversed TCA cycle or mitochondrial succinate formation under anoxia: remember parasites and euryoxic invertebrates
- Oxidative stress in photosynthesis
- Turning points in bioenergetics - evolutionary perspectives on rotation gear ratios of F1FO-ATPases
- Symmorphosis and the respiratory cascade - does mitochondrial physiology match?
- Parasites - the mitochondrial outliers
- Molecular, kinetic, and thermodynamic advances in bioenergetics
- Why Complex I? Complex II is complex too!
- Signals of oxygen to mitochondria
- Cellular oxygen kinetics with and beyond Complex IV
- Bioenergetics of alternative oxidases
- The protonmotive force - not just membrane potential
- From bioenergetics to comparative mitochondrial physiology
- To the heart of the Amazon - adaptations of mitochondrial physiology in the fish champions league
- Hibernating mitochondria
- Metabolic shutdown of mitochondrial bioenergetics
- Perspectives of bioenergetics in health and disease
- Diagnostic monitoring of skeletal mitochondrial metabolism
- Mitochondrial bioenergetics in cancer - beyond the Warburg effect
- Mitochondrial bioenergetics in ischemia-reperfusion injury
- Sex and mitochondrial function - a perspective on high-performance sports
- Mitochondrial research at high altitude - a respiratory challenge
- Long COVID - a respiratory mitochondrial topic
- Methodological advancements in bioenergetics
- Tissue cytometers - imaging the bioenergetics of life
- Redox monitoring and respiration - a new horizon with the NextGen-O2k
- Lipidomics of mitochondrial membranes - methods first
- Long-term monitoring of respiration in cultured cells
- Statistical analysis of reproducibility in high-resolution respirometry
The concept of Living Communications
- Dear authors:
- You may consider your short-term (end of March) and page-limited (4 to 6 pages) primary contribution to Bioblast 2022 as a Living Communication. Our goal is a continuously evolving BEC article collection on Bioenergetics β past and future perspectives. Open Access, no page charges, no publication fees, with Open Peer Review. Starting with a 4 to 6 page short contribution to BEC, you may edit your article to keep it 'immortal' in future editions, which may expand, evolve, and thus contribute to a unique collection on the 'Bioblasts'. BEC has subscribed to DORA to support a change in the world of scientific communication - towards empowerment of Gentle Science instead of slavery in the empires of the publishing industry with yesteryear's paywall journals.
- In the spirit of Gentle Science, to make Bioblast 2022 a milestone in our communication of science,
- Your BEC editorial team
Time lines
- 2022-06-28
- - Arrival in Innsbruck
- 2022-06-29
- - Day 1 of scientific presentations (begin 9:00 am)
- - Evening social activity
- 2022-06-30
- - Day 2 of scientific presentations (begin 9:00 am)
- 2022-06-28
- - Gala dinner
- 2022-07-01
- - Departure from Innsbruck
- 2022-07-01
Registration
- Registration will be opened soon.
Accommodation
- Attendees are to arrange own accommodation
Travel
Labels:
2022, MitoGlobal, ORO, Next
Listed under MitoGlobal Events.
