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Details for: Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum.

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Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum. [electronic resource]

By:

Szumska, Joanna

Contributor(s):

Batool, Zaina
Al-Hashimi, Alaa
Venugopalan, Vaishnavi
Skripnik, Vladislav
Schaschke, Norbert
Bogyo, Matthew
Brix, Klaudia

Producer: 20191230Description: 270-285 p. digitalISSN:

1638-6183

Subject(s):

Animals
Cathepsin B -- antagonists & inhibitors
Cathepsin L -- antagonists & inhibitors
Cell Line
Cilia -- drug effects
Endoplasmic Reticulum -- metabolism
Protein Transport -- drug effects
Receptors, G-Protein-Coupled -- metabolism
Thyroid Epithelial Cells -- cytology

Online resources:

Available from publisher's website

In: Biochimie vol. 166

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Publication Type: Journal Article

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Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum.

APA

Szumska J., Batool Z., Al-Hashimi A., Venugopalan V., Skripnik V., Schaschke N., Bogyo M. & Brix K. (20191230). Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum. : Biochimie.

Chicago

Szumska Joanna, Batool Zaina, Al-Hashimi Alaa, Venugopalan Vaishnavi, Skripnik Vladislav, Schaschke Norbert, Bogyo Matthew and Brix Klaudia. 20191230. Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum. : Biochimie.

Harvard

Szumska J., Batool Z., Al-Hashimi A., Venugopalan V., Skripnik V., Schaschke N., Bogyo M. and Brix K. (20191230). Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum. : Biochimie.

MLA

Szumska Joanna, Batool Zaina, Al-Hashimi Alaa, Venugopalan Vaishnavi, Skripnik Vladislav, Schaschke Norbert, Bogyo Matthew and Brix Klaudia. Treatment of rat thyrocytes in vitro with cathepsin B and L inhibitors results in disruption of primary cilia leading to redistribution of the trace amine associated receptor 1 to the endoplasmic reticulum. : Biochimie. 20191230.

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