Difference between revisions of "MiPschool Tromso-Bergen 2018"
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File:Seminar room.jpg|Seminar room | File:Seminar room.jpg|Seminar room | ||
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== Local organizer == | |||
:::: [[File:Larsen Terje S.png|100px|Terje Larsen]] | |||
:::: [[Larsen_TS|Larsen Terje]] | |||
:::: Faculty of Health Sciences, University of Tromsø | |||
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File:Hoppel 2012x.jpg|'''[[Hoppel CL| Hoppel Charles L]]''' (Case Western Reserve University, Cleveland, US) Â | File:Hoppel 2012x.jpg|'''[[Hoppel CL| Hoppel Charles L]]''' (Case Western Reserve University, Cleveland, US) Â | ||
File:Vendelin Marko.jpg|'''[[Vendelin M|Vendelin Marco]]''' (Tallin University of Technology, EE) | File:Vendelin Marko.jpg|'''[[Vendelin M|Vendelin Marco]]''' (Tallin University of Technology, EE) | ||
File:Gnaiger Erich.jpg|'''[[Gnaiger E|Gnaiger Erich]]''' (Oroboros Instruments, AT) | File:Gnaiger Erich.jpg|'''[[Gnaiger E|Gnaiger Erich]]''' (Medical University of Innsbruck, AT; Oroboros Instruments, AT) | ||
</gallery> Â | </gallery> Â | ||
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::::* Mitochondrial pathways: understanding the basics | ::::* Mitochondrial pathways: understanding the basics | ||
::::* The protonmotive force and respiratory control: Â | ::::* The protonmotive force and respiratory control: Coupling states and rates | ||
::::* | ::::* The protonmotive force and respiratory control: the thermokinetic basis | ||
:::: | :::::# Molecular motion in a diffusion gradient: from Fickâs law, the gas law and the vanât Hoff equation, to Einsteinâs diffusion equation | ||
:::: | :::::# We do not measure gradients: from concentration and potential gradients to concentration and potential differences | ||
:::::# Electrochemical protonmotive force and chemiosmotic pressure: proton pumps and counterions | |||
:::::# Why are mitochondria small? Implications of the mitochondrial volume fraction on -200 mV, non-linear respiratory control by the protonmotive force explained by protonmotive pressure. | |||
::::* Restrictions to intracellular diffusion of ATP and ADP in cardiomyocytes - impact on cardiac E-C coupling | ::::* Restrictions to intracellular diffusion of ATP and ADP in cardiomyocytes - impact on cardiac E-C coupling | ||
::::* Two populations of muscle mitochondria: heart and skeletal muscle | ::::* Two populations of muscle mitochondria: heart and skeletal muscle | ||
| Line 72: | Line 80: | ||
::::* Actomyosin contraction and the dynamics of calcium changes in cardiomyocytes | ::::* Actomyosin contraction and the dynamics of calcium changes in cardiomyocytes | ||
::::* Deacetylation acceleration of BAT thermogenesis | ::::* Deacetylation acceleration of BAT thermogenesis | ||
::::* OXPHOS protocols: understanding the patterns | |||
:::: The scientific sessions will typically consist of introductory lectures plus selected abstract presentations, followed by group discussions in | :::: The scientific sessions will typically consist of introductory lectures plus selected abstract presentations, followed by group discussions in an open âmeet the expertâ format. Â | ||
 | |||
== Registration and further information == | == Registration and further information == | ||
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=== MitoEAGLE Scholarship === | === MitoEAGLE Scholarship === | ||
:::: | ::::# Eligibility: Participants from Inclusiveness Target Countries, Early career investigators, and participants from all COST countries and International Partner Countries can apply - [[MitoEAGLE_network|MitoEAGLE network]]. Â | ||
:::: | ::::# Grants will be allocated to selected participants. Higher grants will be given to members of Inclusiveness Target Countries and to participants with specific presentations. Â | ||
:::: | ::::# Submitted abstracts provide the basis for allocation of MitoEAGLE reimbursement. - '''''Proposed deadline: 2018-August-15.''''' Â | ||
::::# The COST MitoEAGLE grant is a financial support to cover part or full expenses of the local costs (accommodation, meals) and for selected students partly travel expenses.Registration fees cannot be reimbursed. Â | |||
:::: | Â | ||
::::: | ::::: Three MitoEAGLE grant categories | ||
:::::* Grant 1: covers part of | :::::* Grant 1: covers part of accommodation expenses | ||
:::::* Grant 2: covers | :::::* Grant 2: covers accommodation expenses | ||
:::::* Grant 3: covers | :::::* Grant 3: covers accommodation expenses and partly travel expenses | ||
     |      | ||
::::Âť '''Notification of MitoEAGLE scholarships will be given until end of August.''' | ::::Âť '''Notification of MitoEAGLE scholarships will be given until end of August.''' | ||
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=== MiP''scholarships''=== | === MiP''scholarships''=== | ||
::::* | ::::* In addition, the Mitochondrial Physiology Society supports the participation at MiP''school'' with scholarships for students and early career investigators. | ||
Revision as of 17:03, 25 June 2018
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MiPschool Tromso-Bergen 2018
  Tromso-Bergen, NO. 2018 Oct 20-24, 11th MitoEAGLE Training School - MiPschool 2018. |
Âť Mitochondrial Physiology Society
Mitochondrial Physiology Society (2018-10-20) MitoGlobal
Abstract: MiPschool, Tromso-Bergen, Norway 2018
General information
- Registration takes place from 21:00-23:30 pm on Saturday, October 20 at Skarven Bar downtown Tromsø, and on the Coastal Express from 00:15-01:30 am on Sunday.
- The maximum number of attendees for the MiP/MitoEAGLE Training School 2018 is restricted to 65 participants, due to the maximum number of available cabins on the ship
Venue
-
-
-
- Hurtigruten
- Bergen to Tromso
- Norway
- Impressions: Ship and Hurtigruten travel offers
-
-
Hurtigruten boat
Bergen, NO
Tromsoe, NO
Impression of the route
Restaurant
Seminar room
Local organizer
- Larsen Terje
- Faculty of Health Sciences, University of Tromsø
Lecturers
Harper Mary-Ellen (University of Ottawa, CA)
Hoppel Charles L (Case Western Reserve University, Cleveland, US)
Vendelin Marco (Tallin University of Technology, EE)
Gnaiger Erich (Medical University of Innsbruck, AT; Oroboros Instruments, AT)
Preliminary programme
Main topics:
- Mitochondrial pathways: understanding the basics
- The protonmotive force and respiratory control: Coupling states and rates
- The protonmotive force and respiratory control: the thermokinetic basis
- Molecular motion in a diffusion gradient: from Fickâs law, the gas law and the vanât Hoff equation, to Einsteinâs diffusion equation
- We do not measure gradients: from concentration and potential gradients to concentration and potential differences
- Electrochemical protonmotive force and chemiosmotic pressure: proton pumps and counterions
- Why are mitochondria small? Implications of the mitochondrial volume fraction on -200 mV, non-linear respiratory control by the protonmotive force explained by protonmotive pressure.
- Restrictions to intracellular diffusion of ATP and ADP in cardiomyocytes - impact on cardiac E-C coupling
- Two populations of muscle mitochondria: heart and skeletal muscle
- OXPHOS efficiency in skeletal and cardiac muscles
- Mitochondrial function during ischemia/reperfusion injury
- Actomyosin contraction and the dynamics of calcium changes in cardiomyocytes
- Deacetylation acceleration of BAT thermogenesis
- OXPHOS protocols: understanding the patterns
- The scientific sessions will typically consist of introductory lectures plus selected abstract presentations, followed by group discussions in an open âmeet the expertâ format.
Registration and further information
will open soon
How to get there
- There are daily flights in each direction between Oslo and Tromsø, flown by SAS and Norwegian (Please note that there are only a few flights on a Saturday)
- The same companies also offer some direct flights from Stockholm Arlanda, Copenhagen, and London Gatwick, but these are seasonal (so do check yourselves if these routes are operating and of interest).
- Arctic Airlink also offer direct flights to Tromsø from Luleü and Oulu. The nearest train station is Narvik.
- It is 3 1/2 hoursâ drive from Tromsø, and it is connected to the Swedish, not the Norwegian, rail network (sj.se). There is a bus link from Narvik, but usually, the train does not meet the last bus to Tromsø.
Abstracts
- Abstract submission: until August 15, 2018.
- The abstract title has to be included on the registration form.
- Categories: Early career investigators (ECI) and students are invited to submit abstracts in four alternative categories and apply with their submission for a MitoEAGLE Scholarship:
- will be defined..
- Present your abstract as a definition of a term in the context of mitochondrial physiology that is missing in MitoPedia. - Âť MitoPedia
- Format
- Âť Notificiation of MitoEAGLE scholarships: 2018-08-30.
Support
MitoEAGLE Scholarship
- Eligibility: Participants from Inclusiveness Target Countries, Early career investigators, and participants from all COST countries and International Partner Countries can apply - MitoEAGLE network.
- Grants will be allocated to selected participants. Higher grants will be given to members of Inclusiveness Target Countries and to participants with specific presentations.
- Submitted abstracts provide the basis for allocation of MitoEAGLE reimbursement. - Proposed deadline: 2018-August-15.
- The COST MitoEAGLE grant is a financial support to cover part or full expenses of the local costs (accommodation, meals) and for selected students partly travel expenses.Registration fees cannot be reimbursed.
- Three MitoEAGLE grant categories
- Grant 1: covers part of accommodation expenses
- Grant 2: covers accommodation expenses
- Grant 3: covers accommodation expenses and partly travel expenses
- Three MitoEAGLE grant categories
- Âť Notification of MitoEAGLE scholarships will be given until end of August.
MiPscholarships
- In addition, the Mitochondrial Physiology Society supports the participation at MiPschool with scholarships for students and early career investigators.
Labels:
2018, ORO, MitoEAGLE, MiP, Next, MitoGlobal
Listed under MitoGlobal Events.
