Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake. [electronic resource]

By:

Renguet, Edith

Contributor(s):

Ginion, Audrey
Gélinas, Roselle
Bultot, Laurent
Auquier, Julien
Robillard Frayne, Isabelle
Daneault, Caroline
Vanoverschelde, Jean-Louis
Des Rosiers, Christine
Hue, Louis
Horman, Sandrine
Beauloye, Christophe
Bertrand, Luc

Producer: 20170825Description: H432-H445 p. digitalISSN:

1522-1539

Subject(s):

Acetylation
Animals
Biological Transport
Cells, Cultured
Dose-Response Relationship, Drug
Energy Metabolism -- drug effects
Glucose -- metabolism
Glucose Transporter Type 4 -- metabolism
Insulin Resistance
Isolated Heart Preparation
Keto Acids -- metabolism
Ketone Bodies -- metabolism
Leucine -- metabolism
Male
Myocytes, Cardiac -- drug effects
Protein Transport
Rats, Wistar
Ribosomal Protein S6 Kinases, 70-kDa -- metabolism
TOR Serine-Threonine Kinases -- antagonists & inhibitors
Time Factors

Online resources:

Available from publisher's website

In: American journal of physiology. Heart and circulatory physiology vol. 313

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Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake.

APA

Renguet E., Ginion A., Gélinas R., Bultot L., Auquier J., Robillard Frayne I., Daneault C., Vanoverschelde J., Des Rosiers C., Hue L., Horman S., Beauloye C. & Bertrand L. (20170825). Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake. : American journal of physiology. Heart and circulatory physiology.

Chicago

Renguet Edith, Ginion Audrey, Gélinas Roselle, Bultot Laurent, Auquier Julien, Robillard Frayne Isabelle, Daneault Caroline, Vanoverschelde Jean-Louis, Des Rosiers Christine, Hue Louis, Horman Sandrine, Beauloye Christophe and Bertrand Luc. 20170825. Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake. : American journal of physiology. Heart and circulatory physiology.

Harvard

Renguet E., Ginion A., Gélinas R., Bultot L., Auquier J., Robillard Frayne I., Daneault C., Vanoverschelde J., Des Rosiers C., Hue L., Horman S., Beauloye C. and Bertrand L. (20170825). Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake. : American journal of physiology. Heart and circulatory physiology.

MLA

Renguet Edith, Ginion Audrey, Gélinas Roselle, Bultot Laurent, Auquier Julien, Robillard Frayne Isabelle, Daneault Caroline, Vanoverschelde Jean-Louis, Des Rosiers Christine, Hue Louis, Horman Sandrine, Beauloye Christophe and Bertrand Luc. Metabolism and acetylation contribute to leucine-mediated inhibition of cardiac glucose uptake. : American journal of physiology. Heart and circulatory physiology. 20170825.

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