The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy

The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy

Ribozyme strategy has been employed to suppress the expression of target genes with a better efficacy than that of a regular antisense RNA strategy due to its favorable stoichiometry of the hybridization. A plasmid capable of controlling the expression of a portion of antisense RNA whose sequence i...

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Main Authors: Valla Wamanutajinda, Adisak Wongkajornsilp, Yudhtana Sattawatthamrong, Sukit Huabprasert
Format: Article
Language:English
Published: Mahidol University 2002-10-01
Series:Siriraj Medical Journal
Subjects:
-
Online Access:https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/245318
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spelling doaj-ccc630e7b540447cb4f9d3a0277495f82021-08-13T10:08:38ZengMahidol UniversitySiriraj Medical Journal2228-80822002-10-015410The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme StrategyValla Wamanutajinda0Adisak Wongkajornsilp1Yudhtana Sattawatthamrong2 Sukit Huabprasert3Department of Pharmacology, Faculty of Medicine Siriraj Hospital, Mahidol UniversityDepartment of Pharmacology, Faculty of Medicine Siriraj Hospital, Mahidol UniversityDepartment of Medicine, Faculty of Medicine Siriraj Hospital, Mahidol UniversityDepartment of Pharmacology, Faculty of Medicine Siriraj Hospital, Mahidol University Ribozyme strategy has been employed to suppress the expression of target genes with a better efficacy than that of a regular antisense RNA strategy due to its favorable stoichiometry of the hybridization. A plasmid capable of controlling the expression of a portion of antisense RNA whose sequence is complementary to the 5' region of the coding sequence of MUC1 was constructed to include the requisite sequence of a hammerhead ribozyme. This plasmid is intended to suppress MUC1 expression. This novel plasmid was examined to see whether it functioned inside the harboring cell. Cultured cholangiocarcinoma cells prepared from the sediment of intrahepatic biliary fluid were employed as the transfection target since these cells have been confirmed to have high levels of MUC1 expression. The suppression of MUC1 expression in these cells after stimulation of the plasmid function for 16 h was demonstrated using flow cytometric analysis. https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/245318-
collection DOAJ
language English
format Article
sources DOAJ
author Valla Wamanutajinda
Adisak Wongkajornsilp
Yudhtana Sattawatthamrong
Sukit Huabprasert
spellingShingle Valla Wamanutajinda
Adisak Wongkajornsilp
Yudhtana Sattawatthamrong
Sukit Huabprasert
The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
Siriraj Medical Journal
-
author_facet Valla Wamanutajinda
Adisak Wongkajornsilp
Yudhtana Sattawatthamrong
Sukit Huabprasert
author_sort Valla Wamanutajinda
title The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
title_short The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
title_full The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
title_fullStr The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
title_full_unstemmed The Suppression of MUC1 Expression in Cultured Cholangiocarcinoma Cells Using Antisense MUC1 Ribozyme Strategy
title_sort suppression of muc1 expression in cultured cholangiocarcinoma cells using antisense muc1 ribozyme strategy
publisher Mahidol University
series Siriraj Medical Journal
issn 2228-8082
publishDate 2002-10-01
description Ribozyme strategy has been employed to suppress the expression of target genes with a better efficacy than that of a regular antisense RNA strategy due to its favorable stoichiometry of the hybridization. A plasmid capable of controlling the expression of a portion of antisense RNA whose sequence is complementary to the 5' region of the coding sequence of MUC1 was constructed to include the requisite sequence of a hammerhead ribozyme. This plasmid is intended to suppress MUC1 expression. This novel plasmid was examined to see whether it functioned inside the harboring cell. Cultured cholangiocarcinoma cells prepared from the sediment of intrahepatic biliary fluid were employed as the transfection target since these cells have been confirmed to have high levels of MUC1 expression. The suppression of MUC1 expression in these cells after stimulation of the plasmid function for 16 h was demonstrated using flow cytometric analysis.
topic -
url https://he02.tci-thaijo.org/index.php/sirirajmedj/article/view/245318
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