Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity. [electronic resource]

By:

Smith, Kathleen R

Contributor(s):

Hussain, Tania
Karimian Azari, Elnaz
Steiner, Jennifer L
Ayala, Julio E
Pratley, Richard E
Kyriazis, George A

Producer: 20170612Description: E688-E698 p. digitalISSN:

1522-1555

Subject(s):

Adipose Tissue -- metabolism
Amino Acids
Animals
Blood Glucose -- metabolism
Body Composition -- genetics
Body Weight -- genetics
Chromium
Diet, Carbohydrate-Restricted
Diet, High-Fat
Energy Metabolism -- genetics
Glucose Intolerance -- genetics
Homeostasis
Hyperinsulinism -- metabolism
Insulin -- metabolism
Liver -- metabolism
Male
Mice
Mice, Knockout
Nicotinic Acids
Obesity -- genetics
Real-Time Polymerase Chain Reaction
Receptors, G-Protein-Coupled -- genetics
Reverse Transcriptase Polymerase Chain Reaction
Toll-Like Receptor 3 -- metabolism
Triglycerides -- metabolism
Up-Regulation

Online resources:

Available from publisher's website

In: American journal of physiology. Endocrinology and metabolism vol. 310

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Publication Type: Journal Article

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Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity.

APA

Smith K. R., Hussain T., Karimian Azari E., Steiner J. L., Ayala J. E., Pratley R. E. & Kyriazis G. A. (20170612). Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity. : American journal of physiology. Endocrinology and metabolism.

Chicago

Smith Kathleen R, Hussain Tania, Karimian Azari Elnaz, Steiner Jennifer L, Ayala Julio E, Pratley Richard E and Kyriazis George A. 20170612. Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity. : American journal of physiology. Endocrinology and metabolism.

Harvard

Smith K. R., Hussain T., Karimian Azari E., Steiner J. L., Ayala J. E., Pratley R. E. and Kyriazis G. A. (20170612). Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity. : American journal of physiology. Endocrinology and metabolism.

MLA

Smith Kathleen R, Hussain Tania, Karimian Azari Elnaz, Steiner Jennifer L, Ayala Julio E, Pratley Richard E and Kyriazis George A. Disruption of the sugar-sensing receptor T1R2 attenuates metabolic derangements associated with diet-induced obesity. : American journal of physiology. Endocrinology and metabolism. 20170612.

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