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Review

. 2007 Nov;6(11):1933-42.

doi: 10.1128/EC.00254-07. Epub 2007 Sep 14.

Multidrug resistance in fungi

Kailash Gulshan¹, W Scott Moye-Rowley

Affiliations

PMID: 17873085
PMCID: PMC2168405
DOI: 10.1128/EC.00254-07

Review

Multidrug resistance in fungi

Kailash Gulshan et al. Eukaryot Cell. 2007 Nov.

. 2007 Nov;6(11):1933-42.

doi: 10.1128/EC.00254-07. Epub 2007 Sep 14.

Authors

Kailash Gulshan¹, W Scott Moye-Rowley

Affiliation

¹ Department of Molecular Physiology and Biophysics, 6-530 Bowen Science Building, University of Iowa, Iowa City, IA 52242, USA.

PMID: 17873085
PMCID: PMC2168405
DOI: 10.1128/EC.00254-07

No abstract available

PubMed Disclaimer

Figures

FIG. 1. — FIG. 1.
Multidrug resistance pathway in Saccharomyces cerevisiae. A general scheme describing key genetic interactions regulating pleiotropic drug resistance is shown. Standard arrows indicate positive interactions, while the blunt arrows denote negative regulation. The small gray boxes represent Pdr1p/Pdr3p response elements (PDREs), and the white boxes indicate Yrr1p response elements.

FIG. 2. — FIG. 2.
Interactions between the Pdr pathway and sphingolipid biosynthesis. An outline of the biosynthetic pathway producing sphingolipids is depicted. Arrows indicate enzymatic reactions. Genes encoding proteins involved in selected pathway reactions are shown. The black boxes denote genes that are believed to be regulated by Pdr1p and/or Pdr3p. Rsb1p can transport both DHS and PHS (56). M(IP)₂C is mannosyl diinositolphospho-ceramide (31), the final product of the sphingolipid pathway in S. cerevisiae.

See this image and copyright information in PMC

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