P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells

10.2174/09298673113206660269

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Bibliographic Details
Main Authors:	Tay, Z., Koo, S.H., Nguyen, T.T.T., Tan, T.S., Chen, M.L., Chin, C.F., Lim, K.K., Ang, W.H., Bay, B.H., Lee, E.J.D., Chen, E.S.
Other Authors:	BIOCHEMISTRY
Format:	Article
Published:	2014
Subjects:	Doxorubicin Drug resistance Fission yeast P-glycoprotein Vacuolar ATPase
Online Access:	http://scholarbank.nus.edu.sg/handle/10635/109514
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Institution:	National University of Singapore

id	sg-nus-scholar.10635-109514
record_format	dspace
spelling	sg-nus-scholar.10635-1095142015-01-07T08:40:40Z P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells Tay, Z. Koo, S.H. Nguyen, T.T.T. Tan, T.S. Chen, M.L. Chin, C.F. Lim, K.K. Ang, W.H. Bay, B.H. Lee, E.J.D. Chen, E.S. BIOCHEMISTRY CHEMISTRY Doxorubicin Drug resistance Fission yeast P-glycoprotein Vacuolar ATPase 10.2174/09298673113206660269 Current Medicinal Chemistry 21 2 251-260 CMCHE 2014-11-26T07:46:51Z 2014-11-26T07:46:51Z 2014-01 Article Tay, Z.,Koo, S.H.,Nguyen, T.T.T.,Tan, T.S.,Chen, M.L.,Chin, C.F.,Lim, K.K.,Ang, W.H.,Bay, B.H.,Lee, E.J.D.,Chen, E.S. (2014-01). P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells. Current Medicinal Chemistry 21 (2) : 251-260. ScholarBank@NUS Repository. <a href="https://doi.org/10.2174/09298673113206660269" target="_blank">https://doi.org/10.2174/09298673113206660269</a> 09298673 http://scholarbank.nus.edu.sg/handle/10635/109514 NOT_IN_WOS Scopus
institution	National University of Singapore
building	NUS Library
country	Singapore
collection	ScholarBank@NUS
topic	Doxorubicin Drug resistance Fission yeast P-glycoprotein Vacuolar ATPase
spellingShingle	Doxorubicin Drug resistance Fission yeast P-glycoprotein Vacuolar ATPase Tay, Z. Koo, S.H. Nguyen, T.T.T. Tan, T.S. Chen, M.L. Chin, C.F. Lim, K.K. Ang, W.H. Bay, B.H. Lee, E.J.D. Chen, E.S. P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
description	10.2174/09298673113206660269
author2	BIOCHEMISTRY
author_facet	BIOCHEMISTRY Tay, Z. Koo, S.H. Nguyen, T.T.T. Tan, T.S. Chen, M.L. Chin, C.F. Lim, K.K. Ang, W.H. Bay, B.H. Lee, E.J.D. Chen, E.S.
format	Article
author	Tay, Z. Koo, S.H. Nguyen, T.T.T. Tan, T.S. Chen, M.L. Chin, C.F. Lim, K.K. Ang, W.H. Bay, B.H. Lee, E.J.D. Chen, E.S.
author_sort	Tay, Z.
title	P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
title_short	P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
title_full	P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
title_fullStr	P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
title_full_unstemmed	P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells
title_sort	p-glycoprotein and vacuolar atpase synergistically confer anthracycline resistance to fission yeast and human cells
publishDate	2014
url	http://scholarbank.nus.edu.sg/handle/10635/109514
_version_	1681093983004000256

P-glycoprotein and vacuolar ATPase synergistically confer anthracycline resistance to fission yeast and human cells

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