Research paper
Repletion of branched chain amino acids reverses mTORC1 signaling but not improved metabolism during dietary protein dilution
About this item
- Title
- Repletion of branched chain amino acids reverses mTORC1 signaling but not improved metabolism during dietary protein dilution
- Content partner
- Directory of Open Access Journals
- Collection
- Directory of Open Access Journals
- Description
Objective: Dietary protein dilution (PD) has been associated with metabolic advantages such as improved glucose homeostasis and increased energy expenditure. This phenotype involves liver-induced release of FGF21 in response to amino acid insufficiency; however, it has remained unclear whether dietary dilution of specific amino acids (AAs) is also required. Circulating branched chain amino acids (BCAAs) are sensitive to protein intake, elevated in the serum of obese humans and mice and though...
- Format
- Research paper
- Date created
- 2017-08-01
- Creator
- Adriano Maida / Jessica S.K. Chan / Kim A. Sjøberg / Annika Zota / Dieter Schmoll / Bente Kiens / Stephan Herzig / Adam J. Rose
- Contributing partner
- Molecular Metabolism
- URL
- http://www.sciencedirect.com/science/article/pii/S2212877817303824
- Related subjects
- BCAA / Dietary protein / FGF21 / mTORC1 / Diabetes / Internal medicine
What can I do with this item?
Check copyright status and what you can do with this item
Check informationReport this item
If you believe this item breaches our terms of use please report this item
Report this itemDigitalNZ brings together more than 30 million items from institutions so that they are easy to find and use. This information is the best information we could find on this item. This item was added on 26 July 2017, and updated 19 July 2018.
Learn more about how we work.
Share
What is the copyright status of this item?
Share
See below for specifics about how you may use this item.
More Information
Directory of Open Access Journals has this to say about the rights status of this item:
CC BY-NC-ND (All metadata for this Directory of Open Access Journals record is available under the Creative Commons Attribution-ShareAlike License (CC BY-SA).)
You can learn more about the rights status of this item at: http://www.elsevier.com/journals/molecular-metabolism/2212-8778/open-access-journal
What can I do with this item?
You must always check with Directory of Open Access Journals to confirm the specific terms of use, but this is our understanding:
Non-infringing use
NZ Copyright law does not prevent every use of a copyright work. You should consider what you can and cannot do with a copyright work.
Share it
This item is suitable for copying and sharing with others, without further permission.
No modifying
You are not allowed to adapt or remix this item into any other works.
No commercial use
You may not use this item commercially.
What can I do with this item?
Check copyright status and what you can do with this item
Check informationReport this item
If you believe this item breaches our terms of use please report this item
Report this itemDigitalNZ brings together more than 30 million items from institutions so that they are easy to find and use. This information is the best information we could find on this item. This item was added on 26 July 2017, and updated 19 July 2018.
Learn more about how we work.
Share
Related items
Loading...